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©2016 eviCore healthcare Oncology Imaging Policy
ONCOLOGY IMAGING GUIDELINES Version 19.0; Tentatively Effective 11-1-2016
This version incorporates accepted revisions prior to 12/31/16
CPT® (Current Procedural Terminology) is a registered trademark of the American Medical Association (AMA). CPT® five digit codes, nomenclature and other data are copyright 2016American Medical Association. All Rights Reserved. No fee schedules, basic units, relative values or related listings are included in the CPT® book. AMA does not directly or indirectly practice medicine or dispense medical services. AMA assumes no liability for the data contained herein or not contained herein.
eviCore healthcare Clinical Decision Support Tool Diagnostic Strategies: This tool addresses common symptoms and symptom complexes. Imaging requests for patients with atypical symptoms or clinical presentations that are not specifically addressed will require physician review. Consultation with the referring physician, specialist and/or patient’s Primary Care Physician (PCP) may provide additional insight.
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ONCOLOGY IMAGING GUIDELINES
ONCOLOGY Imaging Guidelines Abbreviations 3
ONC-1~General Guidelines 4
ONC-2~Central Nervous System Tumors 15
ONC-3~Squamous Cell Carcinomas of the Head and Neck 26
ONC-4~ Salivary Gland Cancers 32
ONC-5~Melanomas and Other Skin Cancers 36
ONC-6~Thyroid Cancer 44
ONC-7~Small Cell Lung Cancer 51
ONC-8~Non-Small Cell Lung Cancer 53
ONC-9~Esophageal Cancer 61
ONC-10~Other Thoracic Tumors 65
ONC-11~Breast Cancer 71
ONC-12~Bone and Soft Tissue Sarcoma 76
ONC-13~Pancreatic Cancer 90
ONC-14~Upper GI Cancers 95
ONC-15~Neuroendocrine Cancers and Adrenal Tumors 100
ONC-16~Colorectal Cancer 108
ONC-17~Renal Cell Cancer 113
ONC-18~Transitional Cell Cancer 120
ONC-19~Prostate Cancer 124
ONC-20~Testicular and Nonepithelial Ovarian (Germ Cell Cancer) 132
ONC-21~Ovarian Cancer 137
ONC-22~Uterine Cancer 141
ONC-23~Cervix Cancer 145
ONC-24~Anal Cancer & Vaginal Cancer, Cancers of the External Genitalia 149
ONC-25~ Multiple Myeloma and Plasmacytomas 153
ONC-26~Leukemia 158
ONC-27~Non-Hodgkin Lymphomas 161
ONC-28~Hodgkin Lymphomas 170
ONC-29~Hematopoietic Stem Cell Transplantion 176
ONC-30~Medical Conditions with Cancer in the Differential Diagnosis 178
ONC-31~Metastatic Cancer, Carcinoma of Unknown Primary Site, & other Types of Cancer 184
ONC-32~Medicare Coverage Policies for PET 194 V19.0; Effective 11/1/2016- Oncology Imaging
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ABBREVIATIONS for ONCOLOGY GUIDELINES ACTH adrenocorticotropic hormone AFP alpha-fetoprotein AP anteroposterior betaHCG beta human chorionic gonadotropin CA 125 cancer antigen 125 test CA 19-9 cancer antigen 19-9 CA 15-3 cancer antigen 15-3 CA 27-29 cancer antigen 27-29 CBC complete blood count CEA carcinoembryonic antigen CNS central nervous system CR complete response CTA computed tomography angiography DCIS ductal carcinoma in situ DLBCL diffuse large B cell lymphomas DRE digital rectal exam EGD esophagogastroduodenoscopy ENT ear, nose, throat ERCP endoscopic retrograde cholangiopancreatography ESR erythrocyte sedimentation rate EUA exam under anesthesia EUS endoscopic ultrasound FDG fluorodeoxyglucose FNA fine needle aspiration FUO fever of unknown origin GE gastroesophageal GI gastrointestinal GU genitourinary HIV human immunodeficiency disease HRPC hormone refractory prostate cancer LCIS lobular carcinoma in situ LDH lactate dehydrogenase LFT liver function tests MALT mucosa associated lymphoid tissue MEN multiple endocrine neoplasia MG myasthenia gravis MGUS monoclonal gammopathy of unknown significance MIBG I-123 metaiodobenzylguanidine scintigraphy MRA magnetic resonance angiography MRI magnetic resonance imaging MUGA ‘multiple gated acquisition’ cardiac nuclear scan NaF Sodium Fluoride NCCN® National Comprehensive Cancer Network NHL non-Hodgkin’s lymphoma NPC nasopharyngeal carcinoma NSABP National Surgical Adjuvant Breast and Bowel Project NSAIDS nonsteroidal anti-inflammatory drugs NSCLC non-small cell lung cancer NSGCT non-seminomatous germ cell tumor PA posteroanterior PCI prophylactic cranial irradiation PET positron emission tomography COG Children’s Oncology Group PSA prostate specific antigen RFA radiofrequency ablation RPLND retroperitoneal lymph node dissection SqCCa squamous cell carcinoma SCLC small cell lung cancer SIADH syndrome of inappropriate secretion of antidiuretic hormone TCC transitional cell carcinoma TNM tumor node metastasis staging system TSH thyroid-stimulating hormone TURBT trans-urethral resection of bladder tumor VIPoma vasoactive intestinal polypeptide WM Waldenstrom’s macroglobulinemia
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ONCOLOGY IMAGING GUIDELINES
ONC-1~GENERAL GUIDELINES
ONC-1 GENERAL GUIDELINES 1.1 Key Principles 5
1.2 Phases of Oncology Imaging and General Phase-Related Considerations
8
1.3 Nuclear Medicine (NM) Imaging in Oncology 10
1.4 PET Imaging in Oncology 11
1.5 Coding and Payor Notes 13
1.6 Predisposition Syndromes 14 For predisposition syndrome screening in adult patients, see the following in the Pediatric Oncology Guidelines: PEDONC-2~Screening Imaging in Cancer Predisposition Syndromes
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ONCOLOGY IMAGING GUIDELINES
ONC-1~GENERAL GUIDELINES
ONC-1.1 Key Principles The majority of malignancies occurring in the adult population are different diagnoses than those occurring in the pediatric population. For those diseases which occur in both adult and pediatric populations, minor differences may exist in management between adult and pediatric medical oncologists due to patient age, comorbidities, and differences in disease natural history between children and adults.
Patients age ≥18 years old at initial diagnosis should be imaged according to the Oncology Imaging Guidelines, and patients age <18 years at initial diagnosis should be imaged according to the Pediatric Oncology Imaging Guidelines, except where directed otherwise by a specific guideline section
Patients age 15-39 years old at initial diagnosis are defined as Adolescent and Young Adult (AYA) Oncology patients. There is significantly more overlap between cancer types in this age group.
o When unique guidelines for a specific cancer type exist only in either Oncology or Pediatric Oncology, AYA patients should be imaged according to the guideline section for their specific cancer type, regardless of the patient’s age
o When unique guidelines for a specific cancer type exist in both Oncology and Pediatric Oncology, AYA patients should be imaged according to the age rule in the previous bullet
In general, a recent (within 60 days) detailed history and physical examination and appropriate laboratory studies should be performed prior to considering advanced imaging, unless the patient is undergoing guideline-supported scheduled off therapy surveillance evaluation. The clinical evaluation may include a relevant history and physical examination, including biopsy, appropriate laboratory studies, and non-advanced imaging modalities.
Other meaningful contact (telephone call, electronic mail or messaging) by an established patient can substitute for a face-to-face clinical evaluation.
Clinical evaluation is ongoing and many interval visits may rely partially or completely on history and physical examination to diagnose and monitor certain malignant diseases without a need for advanced imaging. Some examples include:
o Suspected ovarian cancer requires only a chest x-ray and ultrasound (CPT®76830 and/or CPT®76856) prior to resection (See:ONC-21.2)
o Pelvis advanced imaging is not needed to determine prostate cancer treatment when presenting with a low Gleason score and an elevated Prostate-specific antigen
(See: ONC-19.1)
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o Advanced imaging is not considered for any stage cervical cancer patient who is asymptomatic during surveillance. (See: ONC-23.4)
Conventional Imaging General Considerations The following are general principles in advanced oncology imaging. Exceptions to these principles may be addressed in disease specific guidelines. The majority of oncology imaging decisions are listed in the diagnosis-specific
guideline sections, but for rare malignancies and other circumstances not specifically addressed elsewhere in the Oncology guidelines, the following general principles apply:
o Routine imaging of brain, spine, neck, chest, abdomen, pelvis, bones, or other body areas is not indicated in the absence of localizing symptoms or abnormalities on plain radiography or ultrasound.
Ultrasound (US) can be adequate and definitive for many gynecological tumors
In oncology patients, CT imaging should be performed with contrast for known or suspected body regions, unless a contraindication or other need is identified. Shellfish allergy is not a contraindication to contrast. Patients with known shellfish allergy do not have contrast reaction any more often than other atopic individuals or patients with other food allergies.
o For imaging in patients with renal insufficiency which precludes contrast, CT without contrast of appropriate disease-specific areas should be offered. Further imaging (such as MRI) may be indicated if noncontrast CT results are inconclusive.
o For contrast dye allergy, either CT scans without contrast or MRI scans without and with contrast are indicated.
Conventional imaging (mostly CT, sometimes MRI or US) of the affected area(s) drives much of initial and re-staging and surveillance (see chart in next section) o Tumor involvement can also frequently be evaluated by local, regional or distant
signs or symptoms, tumor markers, or other laboratory studies o Except where explicitly stated in a diagnosis-specific guideline section, advanced
imaging of the neck, chest, abdomen, and/or pelvis are not indicated in oncological evaluations unless one of the following applies:
o Known prior disease involving the requested body area o New or worsening symptoms or physical exam findings involving the
requested body area (including non-specific findings such as ascites or pleural effusion)
o New finding on basic imaging study such as plain x-ray or ultrasound o New finding on adjacent body area CT/MRI study (i.e., pleural effusion
observed on CT abdomen)
The use of MRI in place of CT scans to reduce risk of secondary malignancy is not supported by the peer-reviewed literature. Unless otherwise specified in the
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Guidelines, MRI in place of CT scans for this purpose alone is not indicated. In some instances (i.e., testicular cancer surveillance), MRI may be considered inferior to CT scans.
PET is not indicated for surveillance imaging unless specifically stated in elsewhere in the diagnosis-specific guideline sections
Brain imaging is performed for signs or symptoms of brain disease: Certain malignancies including, but not limited to melanoma, lung cancer, and renal cell cancer have indications for asymptomatic patients.
o If stage IV disease is demonstrated elsewhere or if newly progressive disease, refer to disease specific guidelines
o Initiation of angiogenesis therapy is not an indication for advanced imaging of the brain in asymptomatic patients (Avastin/bevacizumab; <3% risk of bleeding and <1% risk of serious bleeding)
o MRI Brain without and with contrast (CPT® 70553) is the recommended study for evaluation of suspected or known brain metastases
• CT without and with contrast (CPT® 70470) can be approved when MRI is contraindicated or not available, or there is skull bone involvement
For most patients echocardiography (CPT® 93306, 93307, or 93308) instead of MUGA is recommended for cardiacfor cardiac evaluation in patients receiving cardiotoxic chemotherapy. See CD-3.5 MUGA Study-Oncologic Indications for MUGA indications.
Bone scan supplemented by plain x-rays are the initial imaging modalities for suspected malignant bone pain. For specific imaging indications, see: o ONC-1.3 Nuclear Medicine (NM) Imaging in Oncology o ONC-31.5 BONE (and SPINE) o ONC 31.6 Spinal Cord Compression o ONC-31.7 CARCINOMA of UNKNOWN PRIMARY SITE
CTA or MRA of a specific anatomic region is indicated when requested for surgical planning when there is suspected vascular proximity to proposed resection margin
Neoadjuvant therapy is often performed anticipating “planned” surgery and so advanced imaging is not routinely needed, prior to resection
Advanced imaging is not supported for evaluation of response in patients who are receiving only complementary or alternative therapies.
o All advanced imaging indicated for initial staging of the specific cancer type can be approved when the patient is considering initiation of a standard therapeutic approach (surgery, chemotherapy, or radiation therapy).
Imaging initially performed prior to diagnosis should not be repeated prior to surgical resection or initiation of chemotherapy unless there is a delay of at least 6 weeks since
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previous imaging and consultation or there are new or significantly worsening clinical signs or symptoms
Whole body MRI imaging is considered investigational for all oncology indications at this time. See Preface-5.2~Whole Body MR Imaging for details.
Certain tumor types do not require surveillance with advanced imaging as patient outcomes following relapse are not improved by surveillance imaging. See diagnosis-specific guideline sections for details.....
ONC-1.2 Phases of Oncology Imaging and General Phase-Related Considerations Screening:
o All imaging studies requested for patients at increased risk for a particular cancer in the absence of any clinical signs or symptoms.
o Screening using advanced imaging is only supported for conditions listed in PEDONC-2~Screening Imaging in Cancer Predisposition Syndromes.
Suspected/Diagnosis: o All imaging studies requested prior to tissue confirmation, when the clinical
picture is suspicious for cancer
Initial Workup, Staging: o All imaging studies requested from the time following biopsy confirmation of
cancer until the initiation of specific treatment (which may be surgical resection alone), unless biopsy is not required in a diagnosis-specific guideline section
Treatment Response, Interim Restaging: o All imaging studies completed during any type of active treatment
(chemotherapy or other medications, radiation therapy, or surgery), including evaluation at the end of planned active treatment, for patients with measurable lesions on imaging
o Conventional (CT or MRI) diagnostic imaging no more frequent than every 2 cycles (generally every 6 weeks) since last scan evaluation or other clinical justification Patients receiving only endocrine/hormonal therapy only for metastatic
breast cancer: Repeat imaging is indicated no more often than once every 3 months
o For patients with known metastatic disease being observed without therapy (“chemo-holiday”) or for those with minimal metastatic disease who are on maintenance therapy, imaging should be considered no more often than every 3 months or for new signs/symptoms to suggest progression. Once patient reinitiates treatment, then follow interim restaging time frame.
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Restaging of Locally Treated Lesions: o Diagnostic procedures to be used for evaluation of lesions treated with
Radiofrequency Ablation, Chemoembolization or other Interventional Procedures Ablation of liver metastases or primary HCC may be done utilizing
chemical, chemotherapeutic, radiofrequency, or radioactive isotope Regardless of the methodology used for embolization, PET imaging is
not indicated for assessing response to this mode of therapy o CT of body area involved either with contrast or without and with contrast or
MRI of body area involved without and with contrast o Scan prior to procedure, then 1 month after procedure and follow-up not more
often than every 3 months o See: ONC-31.2 for additional guidelines regarding ablated liver lesions
Restaging/Recurrence: o All imaging studies completed at the time a recurrence or progression of a
known cancer is documented or is strongly suspected based on clinical signs or symptoms, laboratory findings, or results of basic imaging studies such as plain radiography or ultrasound
o Except where explicitly stated in a diagnosis-specific guideline section, restaging a patient receiving adjuvant chemotherapy whose primary modality of definitive local therapy was complete surgical resection is inappropriate
o Except where explicitly stated in a diagnosis-specific guideline section, f following documented recurrence of cancer, any studies recommended for initial staging of that cancer type in the diagnosis-specific imaging guideline section should be approved
Surveillance: o All routine imaging studies requested for a patient who is not receiving any
active treatment, even if residual imaging abnormalities are present o The recommended timing for surveillance imaging studies in these guidelines
refers to patients who are asymptomatic or have stable chronic symptoms o Certain tumor types do not require surveillance with advanced imaging as
patient outcomes following relapse are not improved by surveillance imaging. See diagnosis-specific guideline sections for details.
o PET imaging is not supported for surveillance imaging unless specifically stated in elsewhere in the diagnosis-specific guideline sections
o For patients with history of metastatic cancer who have had complete response and are taken off therapy, follow-up/surveillance imaging would not be indicated after 5 years diagnosis with metastatic disease, unless new symptoms or specific cancer guidelines state otherwise
o Patients with new or changing clinical signs or symptoms suggesting recurrent disease should have symptom-appropriate imaging requests approved even when surveillance timing recommendations are not met
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ONC-1.3 - Nuclear Medicine (NM) Imaging in Oncology This section does not apply to PET imaging. PET imaging considerations can be
found in ONC–1.4 The most frequent indication for the use of NM Imaging in cancer is for the
evaluation of bone metastases in patients with solid malignancies. For the purpose of these guidelines, any one of the following CPT® codes may be approved where bone scan is indicated:
• CPT®78300 • CPT®78305 • CPT®78306 • CPT® 78320 (SPECT)
o A SPECT scan (CPT® 78320) may be approved for any of the indications for which a bone scan can be approved.
o If the request is for CPT® 78300 and CPT®78320 then only the CPT®78320 is to be approved if medical necessity is established.
o If the request is for CPT®78305 or CPT®78306 and CPT®78320 then two codes can be approved if medical necessity is established
• CPT® 78315 has no specific indications for evaluation of malignant disease Examples of indications for bone scan in patients with history of malignancy
include: o bone pain o rising tumor markers o elevated alkaline phosphatase o Primary bone tumor
Other uses of NM studies are more directed and specific for certain malignancies (i.e. carcinoid; pheochromocytoma) which express unique cell markers for specific radioisotopes. See specific guideline recommendations for use these studies. CPT® codes for this modality use CPT®78800, CPT®78801, CPT®78802, CPT®78803, or CPT®78804.
Nuclear Medicine Imaging scans that are rarely ordered or necessary (since generally there are better imaging studies) are listed below. In the event of a specific request, the following NM scans can be approved for the noted indications:
o Bone Marrow Imaging (CPT®78102, CPT®78103, or CPT®78104): Myeloproliferative (including polycythemia vera and myelofibrosis)
disorders sickle cell bone infarct or ischemia avascular necrosis asymmetric marrow distribution (myeloma; Hodgkin’s lymphoma)
o Spleen Imaging (CPT®78185): Splenic metastases
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o Brain Imaging SPECT (CPT®78607): Immunocompromised patients with mass lesion detected on CT or
MR for differentiation of lymphoma and infection o CSF Leakage Detection (CPT® 78650) is indicated for evaluation of post-
lumbar puncture headache o Radiopharmaceutical imaging (CPT® 78805, 78806, or 78807) can be
approved to evaluate drug-induced pulmonary reactions or toxicity due to cyclophosphamide, busulfan, or bleomycin
Gallium Isotope Scan (CPT®78800, CPT®78801, CPT®78802, CPT®78803, or CPT®78804) is only to be used if PET scan not available and PET is indicated by guidelines:
o Lymphomas o Sarcoma o Melanoma o Myeloma o Head/Neck cancer.
ONC - 1.4 – PET Imaging in Oncology NOTE: Some payors have specific restrictions on PET imaging, and those coverage policies may supersede the recommendations for PET imaging in these guidelines. Throughout these guidelines, the term “PET” refers specifically to 18F-FDG-PET imaging and also applies to PET/CT fusion studies. PET imaging in oncology should use PET/CT fusion imaging (CPT®78815 or
CPT®78816) unless there is clear documentation that the treating facility does not have fusion capacity, in which case PET alone (CPT®78812 or CPT®78813) can be approved along with the appropriate CT studies. Unbundling PET/CT imaging into separate PET and diagnostic CT codes is otherwise not supported.
The decision whether to use skull base to mid-femur (“eyes to thighs”) procedure code for PET (CPT®78812 or CPT®78815) or whole body PET (CPT®78813 or CPT®78816) is addressed in the diagnosis-specific guideline sections.
‘Limited area’ protocol is done infrequently, but may be considered. Studies are reported with codes: for PET, (CPT®78811) or for PET/CT, (CPT®78814) and should be forwarded for medical director review.
PET has not been shown to be diagnostically useful in all forms of cancer. PET is supported for malignancies with significant published evidence regarding its diagnostic accuracy and importance in accurately directing patient care decisions. See diagnosis-specific guideline sections for details.
PET imaging is not specific to cancer, and has a high rate of false positivity. Inflammation, infection (especially granulomatous), trauma, and post-operative
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healing may show high levels of FDG uptake and be false-positive for malignant lesions.
PET may be considered prior to biopsy in order to determine a more favorable site for biopsy when a prior biopsy was nondiagnostic or a relatively inaccessible site is contemplated which would require invasive surgical intervention for biopsy attempt
Except where explicitly stated in a diagnosis-specific guideline section, PET imaging is NOT indicated for: o Concomitantly, with separate diagnostic CT studies o Surveillance o Distant or diffuse metastatic disease o Metastatic disease in the central nervous system (CNS) o Lesions less than 8 mm in size o Follow-up after localized therapy (i.e., radio-frequency ablation; embolization;
stereotactic radiation, etc.) Delay PET for at least 12 weeks after completion of radiation treatment, unless
required sooner for imminent surgical resection. PET requests <12 weeks from completion of radiation treatment should be forwarded for medical director review.
PET imaging using isotopes other than 18F-FDG, including 18F-NaF (PET bone scan) and 11C-Choline, 68Ga-DOTATATE, and Fluciclovine F 18, is considered investigational at this time
PET mammography (PEM, generally reported with CPT® 78811) is considered experimental and investigational at this time.
Unless otherwise specified for a specific cancer type, once PET has been documented to be negative for a given patient’s cancer or all PET-avid disease has been surgically resected, PET should not be used for continued disease monitoring or surveillance unless one of the following applies:
o Conventional imaging (CT, MRI, US, plain film) reveals findings that are inconclusive or suspicious for recurrence Residual mass that has not changed in size since the last conventional
imaging does not justify PET imaging PET avidity in a residual mass at the end of planned therapy is not an
indication for PET imaging during surveillance. o Very rare circumstances where tumor markers or obvious clinical symptoms
show strong evidence suggesting recurrence and PET would replace conventional imaging modalities
o The patient is undergoing salvage treatment for a recurrent solid tumor with residual measurable disease on conventional imaging and confirmed repeat negative PET imaging will allow the patient to transition from active treatment to surveillance.
o These requests will be forwarded for Medical Director review.
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PET for rare malignancies not covered by eviCore guidelines is generally not indicated, due to lack of available evidence regarding diagnostic accuracy of PET in the majority of rare cancers. Conventional imaging studies should be used for initial staging and treatment response for these diagnoses. PET can be approved if all of the following apply:
o Conventional imaging (CT, MRI, US, plain film) reveals findings that are equivocal or suspicious
o No other specific metabolic imaging (MIBG, octreotide, technetium, etc.) is appropriate for the disease type
o The submitted clinical information describes a specific decision regarding the patient’s care that will be made based on the PET results
o These requests will be forwarded for medical director review
ONC-1.5 Coding and Payor Notes Coding and Payor Notes eviCore does preauthorize requests for CT or MRI associated with image-directed biopsy or radiation therapy treatment planning for some payors. (See Quick Reference for details)
eviCore does not routinely evaluate preauthorize requests for PET associated with image-directed biopsy or radiation therapy treatment planning. (See Quick Reference for details)
There is often no unique procedure code for a service performed solely for treatment planning purposes.
AMA instructions in CPT® state that if no specific code exists for a particular service, the service is reported with an unlisted code.
Imaging performed in support of radiation therapy treatment planning should be reported with the following codes: (CPT®76497 for CT, CPT® 76498 for MRI, or CPT®
78999 for PET), not with diagnostic imaging codes.
Imaging associated with image-directed biopsy should be reported with the corresponding interventional codes. See: Preface-4.2 CT-, MR-, or Ultrasound-Guided Procedures.
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ONC-1.6 Predisposition Syndromes For predisposition syndrome screening in adult patients, see: PEDONC-2~Screening Imaging in Cancer Predisposition Syndromes
References 1. ACR Committee on Drugs and Contrast Media, ACR Manual on Contrast Media, version 10.1, Copyright
2015 American College of Radiology, available at: http://www.acr.org/quality-safety/resources/contrast-manual.
2. ACR-SPR PRACTICE PARAMETER FOR THE PERFORMANCE OF SKELETAL SCINTIGRAPHY (BONE SCAN), Revised 2014, available at: http://www.acr.org/~/media/ACR/Documents/PGTS/guidelines/Skeletal_Scintigraphy.pdf.
3. ACR-SPR PRACTICE PARAMETER FOR PERFORMING FDG-PET/CT IN ONCOLOGY, Revised 2014, available at: http://www.acr.org/~/media/ACR/Documents/PGTS/guidelines/FDG_PET_CT.pdf.
4. ACR-SPR PRACTICE PARAMETER FOR THE PERFORMACE OF TUMOR SCINTIGRAPHY 9WITH GAMMA CAMERAS), Revised 2014, available at: http://www.acr.org/~/media/ACR/Documents/PGTS/guidelines/Tumor_Scintigraphy.pdf.
5. Erdi YE, Limits of Tumor Detectability in Nuclear Medicine and PET, Mol Imaging Radionucl Ther 2012;21:23-28.
6. Hapani S, Sher A, Chu D, and Wu S, Increased risk of serious hemorrhage with bevacizumab in cancer patients: a meta-analysis, Oncology 2010;79:27-38.
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ONCOLOGY IMAGING GUIDELINES
ONC-2~Primary Central Nervous System Tumors and PET in Neuro-Oncology and Neurology
ONC-2 Primary Central Nervous System Tumors and PET in Neuro-Oncology and Neurology 2.1 General Considerations 16
2.2 Low Grade Gliomas 17
2.3 High Grade Gliomas 19
2.4 Medulloblastoma and Supratentorial Primitive Neuroectodermal Tumors 21
2.5 Ependymoma 21
2.6 Central Nervous System Germ Cell Tumors 22
2.7 CNS Lymphoma 22
2.8 Meningiomas 23
2.9 Spinal Cord Tumors 23
2.10 Choroid Plexus Tumors 23
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ONCOLOGY IMAGING GUIDELINES
ONC-2~Primary Central Nervous System Tumors
This guideline section applies to primary CNS tumors only. For imaging guidelines in metastatic brain cancer, see the appropriate diagnosis-specific section or ONC-31.3 Brain Metastases for imaging guidelines.
ONC-2.1 General Considerations Primary brain tumors presenting only with uncomplicated headache are very
uncommon. Most primary brain tumors present with specific CNS symptoms.
Histologic confirmation is critical. Therapeutic decisions should not be made on radiographic findings alone, except for the following:
o Medically fragile patients for whom attempted biopsy carries excess medical risk, as stated in writing by both the attending physician and surgeon.
o Brain stem tumors or other sites where the imaging findings are pathognomonic and the risk of permanent neurological damage is excessive with even a limited biopsy attempt.
MRI Brain without and with contrast (CPT®70553) is appropriate for both characterization and follow-up of all brain tumors
o CT Head without and with contrast (CPT® 70470) can be approved when MRI is contraindicated or not available, or there is skull bone involvement
o CT Head (contrast as requested can be approved for preoperative planning when requested by the operating surgeon
MRA or CTA are not routinely indicated in primary CNS tumors but can be approved for preoperative planning or to clarify inconclusive findings on MRI or CT
For suspected brain tumors in neurofibromatosis, see: PEDONC-2~Screening Imaging in Cancer Predisposition Syndromes
MRI Brain without and with contrast (CPT®70553) can be repeated within 24 to 72 hours following brain tumor surgery
MRI Brain without and with contrast (CPT®70553) is appropriate when a patient with a diagnosed brain tumor deteriorates or develops new features.
Rare tumors occurring more commonly in the pediatric population should be imaged according to the imaging guidelines in: PEDONC-4 Pediatric Central Nervous System Tumors
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MR Spectroscopy in Brain Tumors (MRS, CPT®76390) NOTE: Some payors have specific restrictions on MR Spectroscopy, and those coverage policies may supersede the recommendations for MRS in these guidelines MRS is only supported for use in brain tumors of specified histologies where
diagnostic accuracy has been established in peer-reviewed literature o See diagnosis-specific guidelines for MRS indications
MRS is considered investigational/experimental for all other histologies and indications not listed in a diagnosis-specific guideline section Requests for MRS should be forwarded for Medical Director review
MRS is considered investigational/experimental for all other histologies and indications not listed in a diagnosis-specific guideline section Requests for MRS should be forwarded for Medical Director review
PET Brain Imaging (CPT®78608 and 78609) NOTE: Some payors have specific restrictions on PET Brain Metabolic Imaging, and those coverage policies may supersede the recommendations for this study in these guidelines.
PET Brain Metabolic Imaging (CPT®78608) is only supported for use in brain tumors of specified histologies where diagnostic accuracy has been established in peer-reviewed literature
o See diagnosis-specific guidelines for PET indications o According to Medicare NCD 220.6.17, FDG-PET may be approved once for
initial treatment strategy and three times for subsequent treatment strategy for brain tumors. See ONC-32.1 Oncologic FDG-PET for details.
PET Brain Metabolic Imaging (CPT®78608) is considered investigational/experimental for all other histologies and indications not listed in a diagnosis-specific guideline section
PET Brain Perfusion Imaging (CPT® 78609) is not indicated in the evaluation or management of primary CNS tumors, and is nationally non-covered by Medicare per NCD 220.6.17.
Body PET studies (CPT® 78811, 78812, and 78813) and Ffusion PET/CT studies (CPT® 78814, 78815, or 78816) are not indicated in the evaluation or management of primary CNS tumors
Requests for PET Brain Metabolic should be forwarded for Medical Director review
ONC-2.2 Low Grade Gliomas These tumors are defined as having a WHO histologic grade of I or II (out of IV), can occur anywhere in the CNS, and includes the following tumors:
o Pilocytic Astrocytoma
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o Fibrillary (or Diffuse) Astrocytoma o Optic Pathway Gliomas o Pilomyxoid Astrocytoma o Oligodendroglioma o Oligoastrocytoma o Oligodendrocytoma o Subependymal Giant Cell Astrocytoma (SEGA) o Ganglioglioma o Gangliocytoma o Dysembryoplastic infantile astrocytoma (DIA) o Dysembryoplastic infantile ganglioglioma (DIG) o Dysembryoplastic neuroepithelial tumor (DNT) o Tectal plate gliomas o Cervicomedullary gliomas o Pleomorphic xanthoastrocytoma (PXA) o Any other glial tumor with a WHO grade of I or II
Indication Imaging Study(ies) Initial Staging • MRI Brain without and with contrast
(CPT®70553) if not already done • MRI Spine without and with contrast (cervical-
CPT®72156, thoracic-CPT®72157, lumbar-CPT®72158)
o MRI Spine with contrast only (cervical-CPT®72142, thoracic-CPT®72147, lumbar-CPT®72149) can be approved if being performed immediately following a contrast-enhanced MRI Brain
After initial resection or other treatment (XRT, etc.)
• MRI Brain without and with contrast (CPT®70553)
One of the following: • Determine need for biopsy
when transformation to high grade glioma is suspected based on clinical symptoms or recent MRI findings
• Evaluate a brain lesion of indeterminate nature when the PET findings will be used to determine whether biopsy/resection can be safely postponed
• PET Brain Metabolic Imaging (CPT®78608)
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One of the following: • Distinguish low grade from
high grade gliomas • Evaluate a brain lesion of
indeterminate nature when the MRS findings will be used to determine whether biopsy/resection can be safely postponed
• Distinguish radiation-induced tumor necrosis from progressive disease within 18 months of completing radiotherapy
• MR Spectroscopy (CPT®76390)
Surveillance • MRI Brain without and with contrast (CPT®70553) every 3 months for 2 years, then every 6 months for 3 years, then annually until 10 years after completion of therapy
o Patients with documented residual masses can have annual imaging until 20 years after completion of therapy due to the risk of late transformation of these tumors
o Patients with cord involvement at diagnosis can have MRI spine without and with contrast (cervical-CPT®72156, thoracic-CPT®72157, lumbar-CPT®72158) on the same schedule as MRI Brain
ONC-2.3 High Grade Gliomas These tumors are defined as having a WHO histologic grade of III or IV (out of IV can occur anywhere in the CNS (though the majority occur in the brain), and includes the following tumors:
o Anaplastic astrocytoma o Glioblastoma multiforme o Diffuse intrinsic pontine glioma (DIPG, or “brainstem glioma”) o Gliomatosis cerebri o Gliosarcoma o Anaplastic oligodendroglioma o Anaplastic ganglioglioma
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o Anaplastic mixed glioma o Anaplastic mixed ganglioneuronal tumors o Any other glial tumor with a WHO grade of III or IV
Indication Imaging Study(ies) Initial Staging • MRI Brain without and with contrast
(CPT®70553) if not already done • MRI Spine without and with contrast (cervical-
CPT®72156, thoracic-CPT®72157, lumbar-CPT®72158)
o MRI Spine with contrast only (cervical-CPT®72142, thoracic-CPT®72147, lumbar-CPT®72149) can be approved if being performed immediately following a contrast-enhanced MRI Brain
Immediately following partial or complete resection
• MRI Brain without and with (CPT®70553)
Immediately following radiation therapy (XRT)
• MRI Brain without and with contrast (CPT®70553) once within 2 to 6 weeks following completion of treatment, and then go to surveillance imaging
For measurable disease undergoing chemotherapy treatments
• MRI Brain without and with contrast (CPT®70553) every 2 cycles
One of the following: • Distinguish low grade from
high grade gliomas • Evaluate a brain lesion of
indeterminate nature when the MRS findings will be used to determine whether biopsy/resection can be safely postponed
• Distinguish radiation-induced tumor necrosis from progressive disease within 18 months of completing radiotherapy
• MR Spectroscopy (CPT®76390)
One of the following: • Distinguish radiation-induced
tumor necrosis from
• PET Brain Metabolic Imaging (CPT®78608) • PET Brain is not indicated in gliomas occurring
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progressive disease within 18 months of completing radiotherapy
• Evaluate inconclusive MRI findings when the PET findings will be used to determine need for biopsy or change in therapy, including a change from active therapy to surveillance
• Evaluate a brain lesion of indeterminate nature when the PET findings will be used to determine whether biopsy/resection can be safely postponed
in the brain stem due to poor uptake and lack of impact on patient outcomes
Surveillance • MRI Brain without and with contrast (CPT®70553) every 3 months for 3 years, then every 6 months for 2 years, then annually until 10 years after completion of therapy
o Patients with documented residual masses can have annual imaging until 20 years after completion of therapy due to the risk of late transformation of these tumors
o Patients with cord involvement at diagnosis can have MRI spine without and with contrast (cervical-CPT®72156, thoracic-CPT®72157, lumbar-CPT®72158) on the same schedule as MRI Brain
ONC-2.4 Medulloblastoma and Supratentorial Primitive Neuroectodermal Tumors (sPNET) Medulloblastoma and sPNET imaging indications in adult patients are identical to those for pediatric patients. See PEDONC-4.4 Medulloblastoma (MDB), Supratentorial Primitive Neuroectodermal Tumors (sPNET), and Pineoblastoma for imaging guidelines. ONC-2.5 Ependymoma Ependymoma imaging indications in adult patients are identical to those for pediatric patients. See PEDONC-4.8 Ependymoma for imaging guidelines.
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ONC-2.6 Central Nervous System Germ Cell Tumors Central nervous system germ cell tumor imaging indications in adult patients are identical to those for pediatric patients. See PEDONC-4.7 CNS Germinomas and Non-Germinomatous Germ Cell Tumors (NGGCT) for imaging guidelines. ONC-2.7 CNS Lymphoma (also known as microglioma)
Indication Imaging Study(ies)
Initial Staging All of the following are indicated: • MRI Brain without and with contrast (CPT® 70553) • MRI Cervical spine without and with contrast
(CPT® 72156) • MRI Thoracic spine without and with contrast
(CPT® 72157) • MRI Lumbar spine without and with contrast (CPT®
72158) Extra-neural evaluation to confirm CNS primary
*Patients with CNS Lymphoma that is metastatic should be imaged according to: • ONC-27 Non-Hodgkin
Lymphomas for patients age ≥18 years
• PEDONC-5.3 Pediatric Aggressive Mature B-Cell Non-Hodgkin Lymphomas (NHL) for patients age ≤17 years
Any or all of the following are indicated: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT® 74177) • PET/CT (CPT® 78815) can be approved for
evaluation of inconclusive findings on CT imaging
Treatment Response • MRI without and with contrast of all positive disease sites every 2 cycles
Surveillance • MRI without and with contrast of all positive disease sites every 3 months for 2 years, then every 6 months for 3 years, then annually until 10 years after completion of therapy
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ONC-2.8 Meningiomas
Indication Imaging Study(ies)
Initial Staging Any or all of the following are indicated: • MRI Brain without and with contrast
(CPT®70553) • CT Head (contrast as requested) • Octreotide or Gallium Brain scintigraphy
(CPT®78800, 78801, 78802, 78803, or 78804) Treatment Response • MRI without and with contrast of all positive
disease sites every 2 cycles
Surveillance for all meningiomas (completely resected, partially resected, and unresected)
• MRI Brain without and with contrast (CPT®70553) every at 3, 6, and 12 3 months for 1 year, then every 6 months for 5 years, then annually for 10 years
ONC-2.9 Spinal Cord Tumors Primary spinal cord tumor imaging indications in adult patients are identical to those for pediatric patients. See PEDONC-4.9 Malignant Tumors of the Spinal Cord for imaging guidelines. ONC-2.10 Choroid Plexus Tumors Choroid Plexus Tumor imaging indications in adult patients are identical to those for pediatric patients. See PEDONC-4.13 Choroid Plexus Tumors for imaging guidelines. References 1. Parsons DW, Pollack IF, Hass-Kogan DA et al, Gliomas, Ependymomas, and Other Nonembryonal
Tumors of the Central Nervous System, Principles and Practice of Pediatric Oncology, eds Pizzo PA & Poplack DG, 7th edition 2016, pp 628-670.
2. Chintagumpala MM, Paulino A, Panigraphy A et al, Embryonal and Pineal Region Tumors, Principles and Practice of Pediatric Oncology, eds Pizzo PA & Poplack DG, 7th edition 2016, pp 671-699.
3. Kieran MW, Chi SN, Manley PE et al, Tumors of the Brain and Spinal Cord, Nathan and Oski’s Hematology and Oncology of Infancy and Childhood, eds Orkin SH, Fisher DE, Ginsburg D, Look AT, Lux SE, and Nathan DG, 8th edition 2015, pp 1779-1885.
4. Menashe SJ, and Iyer RS, Pediatric Spinal Neoplasia: A Practical Imaging Overview of Intramedullary, Intradural, and Osseous Tumors, Curr Probl Diagn Radiol 2013; 42:249-265.
5. Warren KW, Poussaint TY, Vezina G et al, Challenges With Defining Response to Antitumor Agents in Pediatric Neuro-Oncology: A Report From the Response Assessment in Pediatric Neuro-Oncology (RAPNO) Working Group, Pediatr Blood Cancer 2013;60:1397-1401.
6. Zukotynski K, Fahey F, Kocak M et al, 18F-FDG PET and MR Imaging Associations Across a Spectrum of Pediatric Brain Tumors: A Report from the Pediatric Brain Tumor Consortium, J Nucl Med 2014;55:1473-1480.
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7. Brandão LA and Castillo M, Adult Brain Tumors: Clinical Applications of Magnetic Resonance Spectroscopy, Neuroimag Clin N Am 2013;23:527-555.
8. Soffietti R, Baumert BG, Bello L et al, Guidelines on management of low-grade gliomas: report of an EFSN-EANO* Task Force, Eur J Neurol 2010;17:1124-1133.
9. Naftel RP, Pollack IF, Zuccoli G, Deutsch M, and Jakacki RI, Pseudoprogression of Low-Grade Gliomas After Radiotherapy, Pediatr Blood Cancer 2015;62:35-39.
10. Kruer MC, Kaplan AM, Etzl MM Jr. et al, The value of positron emission tomography and proliferation index in predicting progression in low-grade astrocytomas of childhood, J Neurooncol 2009;95:239-245.
11. Chamdine O, Broniscer A, Wu S, Gajjar A, and Qaddoumi I, Metastatic Low-Grade Gliomas in Children: 20 Years’ Experience at St. Jude Children’s Research Hospital, Pediatr Blood Cancer 2016;63:62-70.
12. Morris EB, Gajjar A, Okuma JO et al, Survival and Late Mortality in Long-Term Survivors of Pediatric CNS Tumors, J Clin Oncol 2007;25:1532-1538.
13. Gururangan S, Hwang E, Herndon JE II et al, [18F]Fluorodeoxyglucose-Positron Emission Tomography in Patients with Medulloblastoma, Neurosurgery 2004;55:1280-1289.
14. Millard NE and DeBraganca KC, Medulloblastoma, J Child Neurol 2015; epub ahead of print September 2, 2015, DOI: 10.1177/0883073815600866.
15. Martinex S, Khakoo Y, Giheeney S et al, Marker (+) CNS Germ Cell Tumors in Remission: Are Surveillance MRI Scans Necessary? Pediatr Blood Cancer 2013; epub ahead of print December 3, 2013, DOI: 10.1002/pbc.24888.
16.12. Goldman S, Bouffet E, Fisher PG et al, Phase II Trial Assessing the Ability of Neoadjuvant Chemotherapy With or Without Second-Look Surgery to Eliminate Measurable Disease for Nongerminomatous Germ Cell Tumors: A Children’s Oncology Group Study, J Clin Oncol 2015;33:2464-2471.
17.13. Vitanza NA and Partap S, Pediatric Ependymoma, J Child Neurol 2015; epub ahead of print October 26, 2015, DOI: 10.1177/0883073815610428.
18.14. Larrew T and Eskandari R, Pediatric Intraparenchymal Meningioma, Case Report and Comparative Review., Pediatr Neurosurg. 2015.; epub ahead of print November 3, 2015, DOI: 10.1159/000441008.
15. Horská A and Barker PB, Imaging of Brain Tumors: MR Spectroscopy and Metabolic Imaging, Neuroimaging Clin N Am 2010;20:293-310.
Kim AH, Thompson EA, Governale LS, et al. Recurrence after gross-total resection of low grade pediatric brain tumors: the frequency and timing of postoperative imaging. J Neurosurg Pediatr. 2014;14(4):356-64. 16. 17. Sundgren PC, MR Spectroscopy in Radiation Injury.Am J NeuroradioNeuroradiol. 2009;30:1469-
1476. 18. Zaky W, Dhall G, Khatua S et al, Choroid Plexus Carcinoma in Children: The Head Start Experience. Pediatr Blood Cancer. 2015;62:784-789. 19. Petersen H, Holdgaard PC, Madsen PH, et al. PFDG PET/CT in cancer: comparison of actual use with literature-based recommendations. Eur J Nucl Med Mol Imaging. 2016;43(4):695-706. V19.0; Effective 11/1/2016- Oncology Imaging
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19. Sundgren PC, MR Spectroscopy in Radiation Injury, AJNR Am J Neuroradiol 2009;30:1469-1476. 20. Zaky W, Dhall G, Khatua S et al, Choroid Plexus Carcinoma in Children: The Head Start
Experience, Pediatr Blood Cancer 2015;62:784-789.
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ONCOLOGY IMAGING GUIDELINES
ONC-3~SQUAMOUS CELL CARCINOMAS of the HEAD and NECK
ONC-3 SQUAMOUS CELL CARCINOMAS of the HEAD and NECK 3.1 Suspected/ Diagnosis 27
3.2 Initial Work-Up/Staging 27
3.3 Restaging/Recurrence-Imaging 29
3.4 Surveillance/Follow-Up 30
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ONCOLOGY IMAGING GUIDELINES
ONC-3~SQUAMOUS CELL CARCINOMAS of the HEAD and NECK
For squamous cell “lip” and “cheek” cancer imaging requests, see: ONC-5~Melanomas and Other Skin Cancers. Patients with esthesioneuroblastoma should be imaged according to this guideline
section For squamous cell “lip” and “cheek” cancer imaging requests, see: ONC-5~Melanomas and Other Skin Cancers.
ONC-3.1 SUSPECTED/DIAGNOSIS See NECK-6~NECK MASSES for imaging guidelines for evaluation of suspected
malignancy in the neck PET may be considered prior to biopsy in order to determine a more favorable site for
biopsy when a prior biopsy was nondiagnostic or a relatively inaccessible site is contemplated which would require invasive surgical intervention for biopsy attempt
Suspected/Diagnosis Imaging Study Suspicious lesion on examination, laryngoscopy, endoscopy or US
• CT Neck with contrast (CPT®70491)
In order to direct laryngoscopy/exam under anesthesia for biopsy or for Pulmonary nodule(s) (see CH-12 and CH-16 in the Chest Imaging Guidelines)
• PET/CT (CPT® 78815)
ONC-3.2 INITIAL WORK-UP/STAGING Diagnosis Imaging Study
All Stages of Disease • CT Neck with contrast (CPT®70491) or MRI Orbits/Face/Neck without and with contrast (CPT®70543)
• Chest x-ray or CT Chest with contrast (CPT®71260)
• Lymph system imaging (lymphoscintigraphy, CPT®78195) is indicated for sentinel lymph node evaluation when nodes are not clinically positive
Any head and neck cancer with neurological findings or suspicion of skull base invasion
• MRI Brain without and with contrast (CPT®70553)
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Nasal cavity and paranasal sinuses (bony erosion or skull base and intracranial involvement)
Any one of the following studies is indicated: • CT Maxillofacial with contrast
(CPT®70487) • CT Neck with contrast (CPT®70491) MRI Orbits/Face/Neck without and with
contrast (CPT®70543)
Nasopharyngeal (NPC) Cancer • MRI Orbits/Face/Neck without and with contrast (CPT®70543) is the preferred study
o CT Neck (CPT®70491) and/or CT Maxillofacial (CPT®70487) with contrast can be approved if contraindication to MRI
• Chest x-ray or CT Chest with contrast (CPT®71260)
For any of the following: • Known stage III or IV disease (see
Practice Note) • Nasopharyngeal primary site • Inconclusive findings on conventional
imaging (CT, MRI) • Prior to start of primary
chemoradiotherapy and have not undergone definitive surgical resection
• In order to direct laryngoscopy/exam under anesthesia for biopsy
• Pulmonary nodule(s) ≥8 mm in size (see CH-12 and CH-16)
• Cervical lymph node biopsy positive for squamous cell carcinoma and no primary site identified on CT or MRI
• Inconclusive findings suggestive of disease outside the head and neck area
• PET/CT (CPT®78815)
Signs or symptoms of abdominal metastatic disease, including elevated liver function tests
• CT Abdomen with contrast (CPT®74160)
Any head and neck cancer with neurological findings or suspicion of skull base invasion
• MRI Brain without and with contrast (CPT®70553)
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Practice Note: • CT pelvis is not indicated for the initial work up of any head and neck malignancy
except for work up of an occult primary to lower neck nodes, where CT chestChest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with , abdomen and pelviscontrast is indicated
• Imaging of the CNS (head, spine) is indicated only to evaluate specific signs or symptoms or if concern for base of skull invasion suggesting spread to those areas
• Stage III/IV disease encompasses any primary tumor larger than 4 cm or documented lymph node positive disease
ONC-3.3 RESTAGING/RECURRENCE – Imaging
Indication Imaging Study Following complete resection and/or radical neck dissection
See Surveillance imaging
Following primary chemoradiotherapy (for Stage III or IV disease)
• CT Neck with contrast (CPT®70491) or MRI Orbits/Face/Neck without and with contrast (CPT® 70543)
• PET is indicated (no sooner than 128 weeks post completion XRT) for:
o Evaluating the need for salvage surgery/radical neck dissection in patients with measurable residual disease on physical exam or recent CT or MRI
o Distinguishing active tumor from radiation fibrosis
Induction chemotherapy response • CT neck with contrast CPT®70491) or MRI Orbits/Face/Neck without and with contrast (CPT® 70543)
o PET not indicated to assess response to induction chemotherapy
Any recurrence suspected or biopsy proven – non-metastatic
• CT Neck with contrast (CPT® 70491) or MRI Orbits/Face/Neck without and with contrast (CPT® 70543);
• CT Chest with contrast (CPT71260) Inconclusive conventional imaging (CT or MRI) or biopsy proven local recurrence
• PET/CT (CPT® 78815)
If new symptoms or chest previously involved
• CT Chest with contrast (CPT® 71260)
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ONC-3.4 SURVEILLANCE/FOLLOW-UP Indications Imaging Study
Stage III-IV carcinoma with any of the following primary sites:
• Nasopharynx • Oropharynx • Hypopharynx • Glottic or supraglottic larynx
Any stage carcinoma with any of the following primary sites:
• Sinus • Lip
Once within 6 months of completing all treatment: • CT Neck with contrast (CPT® 70491) or
MRI Orbits/Face/Neck without and with contrast (CPT® 70543)
• CT with contrast of any other involved body area
After initial post-treatment study, for any of the following:
• Nasopharyngeal primary site • Physical exam unable to
evaluate primary site for recurrence
Annually for 3 years: • CT Neck with contrast (CPT® 70491) or
MRI Orbits/Face/Neck without and with contrast (CPT® 70543)
All other site and stages not listed above
• Routine advanced imaging is not indicated
References 1. Pfister DG, Spencer S, Brizel DM et al, National Comprehensive Cancer Network (NCCN)
Guidelines Version 1.2015. Head and Neck Cancers, available at: http://www.nccn.org/professionals/physician_gls/pdf/head-and-neck.pdf. Referenced with permission from the NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines™) for Head and Neck Cancers V1.2015. ©2015 National Comprehensive Cancer Network, Inc. All rights reserved. The NCCN Guidelines™ and illustrations herein may not be reproduced in any form for any purpose without the express written permission of the NCCN. To view the most recent and complete version of the NCCN Guidelines™, go online to NCCN.org.
2. Fleming AJ Jr, Smith SP JR, Paul CM, et al. Impact of [18F]-2fluorodeoxyglucose-positron emission tomography/computed tomography on previously untreated head and neck cancer patients. Laryngoscope. 2007; 117:1173-1179.
3. Nahmias C, Carlson ER, Duncan LD, et al. Position emission tomography/computerized tomography (PET/CT) scanning for preoperative staging of patients with oral/head and neck cancer. J Oral Maxillofac Surg. 2007; 65:2524-2535.
4. Pellitteri PK, Ferlito A, Rinaldo A, et al. Planned neck dissection following chemoradiotherapy for advanced head and neck cancer: is it necessary at all? Head Neck. 2006;28:166-175.
5. Canning CA, Gubbels S, Chinn C, Wax M, Holland JM. Positron emission tomography scan to determine the need for neck dissection after chemoradiation for head and neck cancer: timing is everything. Laryngoscope. 2005; 115:2206-2208.
6. Kutler DI, Patel SG, Shah JP. The role of neck dissection following definitive chemoradiation. Oncology; 18(8): 993-998.
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7. Porceddu SV, Jarmolowski E, Hicks RJ, et al. Utility of positron emission tomography for the detection of disease in residual neck nodes after (chemo) radiotherapy in head and neck cancer. Head Neck. 2005; 27(3): 175-181.
1. Isles MG, McConkey C, Mehanna HM. A systematic review and meta-analysis of the role of positron emission tomography in the follow up of head and neck squamous cell carcinoma following radiotherapy or chemoradiotherapy. Clin Otolaryngol. 2008; 33(3):210-222. National Comprehensive Cancer Network (NCCN). 2015; 13:36-41. BMC Cancer volume 16 pages 116ff 2016
2. Review of Recent Clinical Trials 2012 pages 36-41 3. Journal of the National Comprehensive Cancer Network volume 13 pages 36-41 2015
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ONCOLOGY IMAGING GUIDELINES
ONC-4~Salivary Gland Cancers
ONC-4 SALIVARY GLAND CANCERS 4.1 Suspected/Diagnosis 33
4.2 Initial Workup/Staging 33
4.3 Restaging/Recurrence 34
4.4 Surveillance/Follow Up 34
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ONCOLOGY IMAGING GUIDELINES
ONC-4~Salivary Gland Cancers
ONC-4.1 SUSPECTED/DIAGNOSIS See NECK-12~SALIVARY GLAND DISORDERS for imaging guidelines for
evaluation of suspected malignancy in the salivary glands
Suspected/Diagnosis Imaging Study
Any of the following: • Mass on palpation • Parotid mass (Warthin tumor) • Palsies of cranial nerves VII, IX, or
X • Stridor
Any one of the following can be approved: • MRI Orbits/Face/Neck without and with
contrast (CPT®70543) • CT Neck with contrast (CPT®70491) • CT Neck without contrast (CPT®70490) In addition to one of the above: • Salivary Gland Nuclear Imaging
(CPT®78230, 78231, or 78232) is indicated
ONC-4.2 INITIAL WORKUP/STAGING Diagnosis Imaging Study
Biopsy-proven malignancy (only if none of these imaging studies has already been done)
Any one of the following can be approved: • MRI Orbits/Face/Neck without and with
contrast (CPT®70543) • CT Neck with contrast (CPT®70491) • CT Neck without contrast (CPT®70490)
Skull base invasion • MRI Brain without and with contrast (CPT®70553)
Abnormalities on chest x-ray or if lymphadenopathy in neck.
• CT Chest with contrast (CPT®71260)
Only for suspicious lung abnormalities • PET/CT (CPT® 78815) See: CH-16~Solitary Pulmonary Nodule
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ONC-4.3 RESTAGING/RECURRENCE
Indication Imaging Study Patients with unresected disease receiving systemic therapy (chemotherapy)
One of the following may be approved every 2 cycles: • CT Neck with contrast (CPT®70491) and any
other sites of disease • MRI Orbits/Face/Neck without and with
contrast (CPT®70543) and any other sites of disease
Recurrence or progression suspected based on new or worsening signs or symptoms
One of the following may be approved: • CT Neck with contrast (CPT®70491) • MRI Orbits/Face/Neck without and with
contrast (CPT®70543)
In addition, for all patients: • CT Chest with contrast (CPT®71260)
All other patients • No routine advanced imaging indicated
ONC-4.4 SURVEILLANCE/FOLLOW UP Indication Imaging Study
Total surgical resection • No routine advanced imaging indicated
Unresectable or partially resected disease, including those treated with XRT
• Either CT Neck (CPT®70491) or MRI Orbits/Face/Neck (CPT®70543) once within 6 months of end of treatment and then no further routine imaging unless there are new or worsening signs or symptoms.
Practice Note: o The role of PET in salivary gland tumors has yet to be established.
o There are over a dozen histologic types of salivary gland tumors. Over 80% of parotid tumors are benign.
o A bilateral parotid tumor can be Warthin’s tumor. o Lymphoma and metastatic squamous carcinoma can occur in the parotid gland.
o Surveillance/follow-up is primarily by physical exam and chest X-ray only.
o Routine surveillance imaging is not indicated without new symptoms or findings on clinical exam.
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References 1. Yousem DM, Kraut MA, Chalian AA. Major Salivary Gland Imaging. Radiology. 2000;216:19-29. 2. Bell RB, Dierks EJ, Homer L, Potter BE. Management and outcome of patients with malignant
salivary gland tumors. J Oral Maxillofac Surg. 2005;63:917-928. National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Head
and Neck Cancers. V1. 2016. Available at: www.nccn.org. Accessed June 8, 2016. 1. Palacios E, Ellis M, Lam EC, Neitzschman H, Haile M. Pitfalls in imaging the submandibular glands
with PET/CT. Ear Nose Throat J. 2015; 94(10-11):E37-E39. 2. Seo YL, Yoon DY, Baek S, Lim KJ, Yun EJ, et al. Incidental focal FDG uptake in the parotid glands
on PET/CT in patients with head and neck malignancy. Eur Radiol. 2015; 25(1):171-177. 3. Park HL, Yoo leR, Lee N, et al. The value of F-18 FDG PET for planning treatment and detecting
recurrence in malignant salivary gland tumors: comparison with conventional imaging studies. Nucl Med Mol Imaging. 2013; 47(4):242-248.
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ONCOLOGY IMAGING GUIDELINES
ONC-5~Melanomas and Other Skin Cancers
ONC-5 Melanomas and Other Skin Cancers 5.1 Suspected/Diagnosis 37
5.2 Initial Workup/Staging (Melanoma) 37
5.3 Initial Work-Up/Staging (Other Skin Cancers) 38
5.4 Restaging/Recurrence (Melanoma) 39
5.5 Restaging/Recurrence (Other Skin Cancers) 40
5.6 Surveillance/Follow-Up (Melanoma) 41
5.7 Surveillance/Follow-Up (Other Skin Cancers) 42
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ONCOLOGY IMAGING GUIDELINES
ONC-5~Melanomas and Other Skin Cancers
ONC-5.1 SUSPECTED/DIAGNOSIS Suspected/Diagnosis Imaging Study
All • Imaging is not indicated until histologic diagnosis is confirmed
ONC-5.2 INITIAL WORK-UP/STAGING (Melanoma) Melanoma Imaging Study
Stage 0 or Ia (in situ or disease < 1 mm)
• Routine advanced imaging is not indicated
• Stage Ib (≤ 1 mm with ulceration or high mitotic rate)
• Stage II (lesions >1 mm thick, but node negative)
• CT with contrast or MRI without and with contrast of specific areas, only if signs or symptoms indicate need for further evaluation
• Lymph system imaging (lymphoscintigraphy, CPT®78195) is indicated for sentinel lymph node evaluation
• Stage III (sentinel node positive, palpable regional nodes)
• Stage IV (metastatic) • Mucosal, including lip primary or • ocularOcular/orbital primary site
• CT with contrast of Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) or PET/CT (CPT®78815 or CPT®78816)
• CT Neck with contrast (CPT®70491) is indicated for head or neck primary sites or if palpable lymph nodes are present in the neck
• MRI Brain without and with contrast (CPT®70553)
• Primary site of melanoma is unknown and CT Chest and /Abdomen/Pelvis are negative
• MRI Abdomen without and with contrast (CPT®74183) and
• PET/CT (CPT®78815 or CPT®78816)
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ONC-5.3 INITIAL WORK-UP/STAGING (Other Skin Cancers) Other Skin Cancers Imaging Study
Body area with unexplained signs or symptoms
• CT with contrast of that body area
Perineural invasion or local regional extension (i.e. bone; deep soft tissue) involvement
One of the following may be approved of the primary site: • MRI without contrast or without and
with contrast • CT (contrast as requested)
Skin lesion may be a dermal metastasis from distant primary
• CT Chest (CPT® 71260) and Abdomen/Pelvis (CPT® 74177) with contrast
o PET is indicated if conventional imaging (CT or MRI) is unable to identify a primary site
Squamous cell carcinoma head or neck skin with regional lymphadenopathy
• CT Neck (CPT®70491) and Chest (CPT®71260 ) with contrast
Merkel Cell carcinoma • CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
• CT with contrast of other involved body area(s)
• PET if no metastatic disease identified on conventional imaging
• Lymph system imaging (lymphoscintigraphy, CPT®78195) or sentinel lymph node evaluation
• Octreotide or MIBG scan ( one of CPT®78800, 78801, 78802, 78803, or 78804)
Practice Note: Merkel Cell carcinoma may present as a primary cancer or as a skin metastasis from a noncutaneous primary neuroendocrine carcinoma (i.e., small cell lung cancer), therefore conventional imaging is indicated initially to confirm the absence of metastasis prior to considering PET scan.
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ONC-5.4 RESTAGING/RECURRENCE (MELANOMA) All recurrences should be confirmed histologically, except when excessive morbidity from a biopsy may occur, such as a biopsy requiring craniotomy.
Melanoma Imaging Study Patients receiving chemotherapy, with measurable disease
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast every 2 cycles (commonly every 6-8 weeks)
All in situ recurrences • Restaging imaging is not needed after adequate aggressive local therapy (see Surveillance)
Documented or clinically suspected (see top of page regarding biopsy morbidity) recurrence at: • Primary site • In-transit disease • Regional lymph nodes • Metastatic site
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast ,
• MRI Brain without and with contrast (CPT®70553)
• PET/CT (CPT®78815 or CPT®78816) if inconclusive conventional imaging or isolated metastatic based on results of conventional imaging, initially
Brain imaging is indicated for: • New discovery of metastatic
disease or progression of metastatic disease
• Signs or symptoms of CNS disease • If considering Interleukin (IL-2)
therapy
• MRI Brain without and with contrast (CPT®70553)
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ONC-5.5 RESTAGING/RECURRENCE (OTHER SKIN CANCERS) All recurrences should be confirmed histologically, except when excessive morbidity from a biopsy may occur, such as a biopsy requiring craniotomy.
Other Skin Cancers Imaging Study Recurrence where planned therapy is more extensive than simple wide local excision
• CT with contrast of the primary and recurrent site(s)
Recurrence of Merkel Cell Carcinoma
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
• Octreotide or MIBG scan (one of CPT®78800, 78801, 78802, 78803, or 78804)
• PET if no metastatic disease on any of the previous imaging studies
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ONC-5.6 SURVEILLANCE/FOLLOW UP (MELANOMA) Melanoma Imaging Study
Stage 0, IA, IB, and -IIA Melanomas • No routine advanced imaging indicated
Stage IIB, IIIA, and -IIIB Melanomas
• CT Chest (CPT® 71260) and Abdomen/Pelvis (CPT® 74177) with contrast every 6 months for 5 years
• MRI Brain without and with contrast (CPT 70553) annually for 5 years
Stage IIIC and -IV Melanomas
• CT Chest (CPT® 71260) and Abdomen/Pelvis (CPT® 74177) with contrast every 3 months for 3 years, then every 6 months for 2 years
• MRI Brain without and with contrast (CPT 70553) annually for 5 years
Ocular/Orbital Melanomas • CT Chest (CPT® 71260) and Abdomen with contrast (CPT® 74160) every 6 months for 2 years, then annually for 3 years
Liver metastases treated with focal therapy • See ONC-31. 2 Liver Metastases
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ONC-5.7 SURVEILLANCE/FOLLOW UP (OTHER SKIN CANCERS) Other Skin Cancers Imaging Study
Merkel Cell node positive
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast every 6 months for 5 years
• Add CT Neck with contrast (CPT®70491) if known prior neck disease or scalp/facial/neck disease
All others • No routine advanced imaging is indicated
Practice Note: o For Desmoid Tumors and Dermatofibroma Protuberans (DFST),
See: ONC-12~BONE AND SOFT TISSUE SARCOMA o Melanomas can metastasize in an unpredictable fashion. o Primary orbital/ocular melanomas include arising in the orbit, uveal tract (iris,
ciliary body, and choroid), and conjunctiva and tend to metastasize to the liver. o Primary mucosal melanomas (i.e., gastrointestinal or sinus mucosa) and orbital/ocular
melanomas are considered (and should be managed as) Stage III (i.e., node positive) at initial diagnosis
o Advanced imaging is not often needed in Squamous Cell Carcinomas (SqCCa) (of the skin and Basal Cell Carcinomas (BCC); rare exceptions are noted above.
o Merkel Cell Carcinoma is an unusual skin cancer with neuroendocrine-like histologic features, which has a high propensity (25%-33%) for regional lymph node spread and occasionally, metastatic spread to lungs.
o PET is not indicated for non-melanomatous skin cancers (Exception: see Merkel Cell Carcinoma above).
References Bichakjian CK, Olencki T, Aasi SZ et al, National Comprehensive Cancer Network® (NCCN )
Guidelines. V.ersion 1.2016. Basal Cell Skin Cancer., Aavailable at: http://www.nccn.org. Accessed June 8, 2016.
1. /professionals/physician_gls/pdf/nmsc.pdf. Referenced with permission from the NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines™) for Basal Cell Skin Cancer V1.2016. ©2015 National Comprehensive Cancer Network, Inc. All rights reserved. The NCCN Guidelines™ and illustrations herein may not be reproduced in any form for any purpose without the express written permission of the NCCN. To view the most recent and complete version of the NCCN Guidelines™, go online to NCCN.org. National Comprehensive Cancer Network® NCCN Guidelines. V. 1.2016. Merkel Cell Carcinoma. Available at: http://www.nccn.org. Accessed June 8, 2016. Bichakjian CK, Olencki T, Aasi SZ et al, National Comprehensive Cancer Network (NCCN) Guidelines Version 1.2016. Merkel Cell Carcinoma, available at: http://www.nccn.org/professionals/physician_gls/pdf/mcc.pdf. Referenced with permission from the NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines™) for Merkel Cell Carcinoma V1.2016. ©2015 National Comprehensive Cancer Network, Inc. All rights reserved. The NCCN Guidelines™ and illustrations herein may not be
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reproduced in any form for any purpose without the express written permission of the NCCN. To view the most recent and complete version of the NCCN Guidelines™, go online to NCCN.org.National Comprehensive Cancer Network® NCCN Guidelines. V. 1.2016. Squamous Cell Skin Cancer. Available at: http://www.nccn.org. Accessed June 8, 2016. 2. Bichakjian CK, Olencki T, Aasi SZ et al, National Comprehensive Cancer Network (NCCN) Guidelines Version 1.2016. Squamous Cell Skin Cancer, available at: http://www.nccn.org/professionals/physician_gls/pdf/squamous.pdf. Referenced with permission from the NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines™) for Squamous Cell Skin Cancer V1.2016. ©2015 National Comprehensive Cancer Network, Inc. All rights reserved. The NCCN Guidelines™ and illustrations herein may not be reproduced in any form for any purpose without the express written permission of the NCCN. To view the most recent and complete version of the NCCN Guidelines™, go online to NCCN.org.
3. Brady MS, Akhurst T, Spanknebel K et al, Utility of preoperative [(18)]f fluorodeoxyglucose-positron emission tomography scanning in high-risk melanoma patients, Ann Surg Oncol;2006;13:525-532.
4. Clark PB, Soo V, Kraas J et al, Futility of fluorodeoxyglucose F 18 positron emission tomography in initial evaluation of patients with T2 to T4 melanoma. Arch Surg 2006;141:284-288.
5. Frenkel S, Nir I, Hendler K et al, Long-term survival of uveal melanoma patients after surgery for liver metastases, Br J Ophthalmol 2009;93:1042-1046.
6. Maubec E, Lumbroso J, Masson F et al. F-18 fluorodeoxy-D-glucose positron emission tomography scan in the initial evaluation of patients with a primary melanoma thicker than 4 mm, Melanoma Res 2007;17:147-54.
7. Morton DL, Thompson JF, Cochran AJ et al, Sentinel-node biopsy or nodal observation in melanoma, N Engl J Med 2006;355:1307-1317.
8. Wagner JD, Schauwecker D, Davidson D et al, Inefficacy of F-18 fluorodeoxy-D-glucose-positron emission tomography scans for initial evaluation in early-stage cutaneous melanoma, Cancer 2005;104:570-579.
9.1. Diener-West M, Reynolds SM, Agugliaro DJ et al, Screening for Metastasis from Choroidal Melanoma: The Collaborative Ocular Melanoma Study Group Report 23. , J Clin Oncol. 2004;22:2438-2444.
10.2. Gomez D, Wetherill C, Cheong J et al, The Liverpool Uveal Melanoma Liver Metastases pathway: Outcome Following Liver Resection. , J Surg Onco.l 2014;109:542-547.
3. Pereira PR, Odashiro AN, Lim L et al, Current and emerging treatment options for uveal melanoma. , Clin Ophthalmol. 2013;7:1669-1682.
4. Schröer-Gunther MA, Wolff RF, Westwood ME, et al. F-18-fluoro-2deoxyglucose positron emission tomography (PET) and PET/computed tomography imaging in primary staging of patients with malignant melanoma: a systematic review. Syst Rev. 2012; 1:62.
5. Xing Y, Bronstein Y, Ross MI, et al. Contemporary diagnostic imaging modalities for the staging and surveillance of melanoma patients: a meta-analysis. J Natl Cancer Inst. 2011; 103(2):129-142.
6. Bourgeois AC, Chang TT, Fish LM, Bradley YC. Positron emission tomography/computed tomography in melanoma. Radiol Clin North Am. 2013; 51(5);865-879.
7. Rodriguez Rivera AM, Alabbas H, Ramjuan A, Meguerditchian AN. Value of positron emission tomography scan in stage III cutaneous melanoma: a systematic review and meta-analysis. Surg Oncol. 2014; 23(1):11-16.
8. Nathan P, Cohen V, Coupland S, et al. Uveal melanoma UK National Guidelines. European Journal of Cancer volume 51, pages 2404-2412 2015
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ONCOLOGY IMAGING GUIDELINES
ONC-6~Thyroid Cancer
ONC-6 Thyroid Cancer 6.1 Suspected/Diagnosis 45
6.2 Initial Work-Up/Staging 46
6.3 Restaging/Recurrence 48
6.4 Surveillance/Follow-Up 49
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ONCOLOGY IMAGING GUIDELINES
ONC-6~Thyroid Cancer
ONC-6.1 SUSPECTED/DIAGNOSIS See Neck-9.1~Thyroid Imaging for imaging guidelines for suspected
thyroid malignancies *Thyroid nodule(s) risk factors o Age <15 or >45 with new onset nodule o Male gender o Size greater than 4 cm or any size with rapid growth o Vocal cord paralysis o Regional lymphadenopathy o Symptoms suggestive of tumor invasion into the neck structures o Very firm or fixed nodule o History of radiation exposure, particularly as a young person o Family history of thyroid cancer or familial cancer syndromes
(See also: PEDONC-2.8 Multiple Endocrine Neoplasias (MEN)
Further discussion of thyroid nodules: o Non-diagnostic FNA should be considered for repeat FNA under US guidance or
surgery. o Thyroid nodules with suspicious criteria but <1 cm without adenopathy or suspicious
findings on ultrasound, or nodules <4 cm with no suspicious criteria are followed clinically. No advanced imaging is indicated.
o An incidentally identified thyroid lesion that is positive on PET should be evaluated by ultrasound (CPT®76536), and not CT or MRI according to the above guidelines.
o There is insufficient evidence to support the use of PET imaging to distinguish between benign and malignant thyroid nodules
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ONC-6.2 INITIAL WORK-UP/STAGING Follicular, Papillary and Hürthle Cell Carcinomas
Imaging Study
Any one of the following: • Fixation suggested by clinical exam
and/or ultrasound, and/or • sSubsternal or Bbulky disease or • dDisease precluding full ultrasound
examinationFixation suggested by clinical exam and/or ultrasound, and/or substernal disease precluding full ultrasound examination
Any one of the following: • MRI Neck without contrast (CPT® 70540) • MRI Neck without and with contrast
(CPT®70543) • CT Neck without contrast (CPT®70490) • CT Neck with contrast (CPT®70491) can be
approved if contrast study is necessary for complete pre-operative assessment and use of IV contrast will not delay post-operative use of RAI therapy.
Skeletal pain Any one of the following: • Bone scan (See ONC-1.3) • Nuclear Thyroid scan (CPT®78015, 78016,
78018, or 78020) Suspicious findings on CXR, US, or substernal extension of mass
• CT Chest without contrast (CPT®71250)
All other patients • Routine preoperative advanced imaging is not indicated
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Medullary Thyroid Carcinomas Imaging Study
All patients with positive lymph nodes or calcitonin level >500 pg/mL
Any or all of the following: • CT Neck with contrast (CPT®70491) • CT Chest with contrast (CPT®71260) • CT Abdomen either with (CPT®74160) or
without and with contrast (CPT®74170) Any one of the following: • Bone scan (See ONC-1.3) • Octreotide or MIBG scan (CPT®78800,
CPT®78801, CPT®78802, CPT®78803, or CPT®78804)
Skeletal pain • Bone scan(See ONC-1.3) Inconclusive finding on conventional imaging
• PET/CT (CPT® 78815)
Anaplastic Thyroid Carcinomas Imaging Study
All Any or all of the following: • CT Neck with contrast (CPT®70491) • CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with contrast
(CPT®74177) • Bone scan (See ONC-1.3)
Skeletal pain • Bone scan (See ONC-1.3) Inconclusive finding on conventional imaging
• PET/CT (CPT® 78815 or 78816)**
Practice Note: **PET for initial staging for anaplastic thyroid cancer is currently not recommended before conventional imaging since recommendations for PET are derived from observational studies and clinical trials with other methodological limitations.
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ONC-6.3 RESTAGING/RECURRENCE Follicular, Papillary and Hürthle Cell Carcinomas
Imaging Study
Any of the following: • Recurrence documented by biopsy • Increasing thyroglobulin level without
Thyrogen® stimulation • Thyroglobulin level >2 ng/mL or higher
than previous after Thyrogen® stimulation • Anti-thyroglobulin antibody present • Evidence of residual thyroid tissue on
ultrasound or physical exam after thyroidectomy or ablation
Any or all of the following: • Thyroid Nuclear Scan (CPT®78015, 78016,
78018, or 78020) • CT with contrast of any symptomatic body
area • MRI without and with contrast of any
symptomatic body area
Any of the following: • Negative radioiodine scan and rising
thyroglobulin level • Inconclusive findings on conventional
imaging (including I-131 study) – (See Practice Note)
• PET/CT (CPT® 78815)
Practice Note: Patients with measurable metastatic disease that are RAI refractory may be followed with conventional imaging and PET, both of which are reserved for inconclusive findings.
Medullary and Anaplastic Thyroid Carcinomas
Imaging Study
• Medullary carcinoma with elevated calcitonin or CEA, or signs or symptoms of recurrence
Any or all of the following: • CT Neck with contrast (CPT®70491) • CT Chest with contrast (CPT®71260) • CT Abdomen either with (CPT®74160) or without
and with contrast (CPT®74170) • Octreotide or MIBG scan (CPT®78800, 78801,
78802, 78803, or 78804) • Anaplastic carcinoma with signs
or symptoms of recurrence Any or all of the following: • CT Neck with contrast (CPT®70491) • CT Chest with contrast (CPT®71260) • Either CT Abdomen/Pelvis with contrast
(CPT®74177) or MRI Abdomen (CPT®74183) and Pelvis (CPT®72197) without and with contrast
• Inconclusive conventional imaging
• PET/CT (CPT® 78815)
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ONC-6.4 SURVEILLANCE/FOLLOW UP Follicular, Papillary and Hürthle Cell Carcinomas
Imaging/Diagnostic Study
All patients • Neck ultrasound (CPT®76536), chest X-ray, and laboratory studies every 63 months for the first 2 years, then annually
• Thyroid Nuclear Scan (CPT®78015, 78016, 78018, or 78020) for node positive and high risk patients, and patients with RAI-avid metastases as per above time frames.
Medullary Carcinomas Imaging/Diagnostic Study
All patients • CEA and calcitonin are required for monitoring medullary carcinomas
• Routine surveillance imaging is not indicated
Anaplastic Thyroid
Carcinomas Imaging Study
All patients Every 3 months for 2 years: • CT Neck with contrast (CPT®70491) • CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with contrast (CPT®74177)
References 1. Hales NW, Krempl GA, and Medina JE, Is there a role for fluorodeoxyglucose positron emission
tomography/computed tomography in cytologically indeterminate thyroid nodules? Am J Otolaryngol 2008;29:113-118.
2. Khan N, Oriuchi N, Higuchi T and Endo K, Review of fluorine-18-2-fluoro-2-deoxy-D-glucose positron emission tomography (FDG-PET) in the follow-up of medullary and anaplastic thyroid carcinomas. Cancer Control 2005;12:254-260.
3. Kloos RT, Eng C, Evans DB et al, Medullary thyroid cancer: management guidelines of the American Thyroid Association, Thyroid 2009;19:565-612.
4. Lansford CD and Teknos TN, Evaluation of the thyroid nodule, Cancer Control 2006;13:89-98. 5. Slough CM and Randolph GW, Workup of well-differentiated thyroid carcinoma, Cancer Control
2006;13:99-105. 6. Smallridge RC, Ain KB, Asa SL et al, American Thyroid Association guidelines for management of
patients with anaplastic thyroid cancer, Thyroid 2012;22:1104-1139. 7. Takashima S, Morimoto S, Ikezoe J et al, CT evaluation of anaplastic thyroid carcinoma, Am J
Roentgenol 1990;154:1079-1085. 8. Wells SA Jr, Asa SL, Dralle H et al, American Thyroid Association guidelines for the management
of medullary thyroid carcinoma, Thyroid 2015;25:567-610.
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9. Yeh MW, Bauer AJ, Bernet VA et al, American Thyroid Association statement on preoperative imaging for thyroid cancer surgery, Thyroid 2015;25:3-14.
10. Christensen CR, Glowniak JV, Brown PH, and Morton KA, The effect of gadolinium contrast media on radioiodine uptake by the thyroid gland, J Nucl Med Technol 2000;28:41-44.
National Comprehensive Cancer Network® NCCN Guidelines. V. 2.2015. Thyroid Carcinoma. Available at: http://www.nccn.org. Accessed June 8, 2016.
10.
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ONCOLOGY IMAGING GUIDELINES
ONC-7~Small Cell Lung Cancer Practice Note: Patients treated curatively for SCLC are at increased risk for developing a second lung cancer. If new lung nodule is seen on imaging without any evidence of other systemic disease then should follow CH-16~Solitary Pulmonary Nodule for work-up of nodule. o Imaging is presently guided by traditional staging of limited or extensive disease. o Combined histologies of small and non-small cell are considered small cell lung
cancer. o Extensive stage is either metastatic disease or an extent which cannot be encompassed
by a single radiotherapy portal. Limited staging is confined to one side of the chest. ONC-7.1 Small Cell Lung Cancer (SCLC) Imaging Indications
Indication Imaging Study Evaluation of pulmonary nodule or mass
See ONC-8.2 Suspected/Diagnosis or CH-16~Solitary Pulmonary Nodule (SPN)
Initial staging Any or all of the following: • CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with contrast (CPT®74177) • MRI Brain without and with contrast
(CPT®70553) • Bone scan, if PET/CT not being done (See
ONC-1.3) Confirm limited stage (non-metastatic) disease if initial staging imaging (CT and (MRI) shows disease limited to the thorax
• PET/CT (CPT®78815)
Treatment Response for one of the following: • After every 2 cycles of
chemotherapy • Following completion of
chemoradiation
Any or all of the following: • CT Chest with contrast (CPT®71260) • CT Abdomen with contrast (CPT®74160)
o CT Abdomen/Pelvis with contrast (CPT®74177) may be substituted for known pelvic disease or pelvic symptoms
• Bone scan (See ONC-1.3) • PET is not indicated for evaluation of treatment
response in SCLC, but can be considered on a case-by-case basis. These cases should be forwarded for medical director review.
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• CT Chest with contrast (CPT®71260) • CT Abdomen with contrast (CPT®74160)
o CT Abdomen/Pelvis with contrast (CPT®74177) may be substituted for known pelvic disease or pelvic symptoms
• Brain MRI without and with contrast (CPT®70553)
• Bone scan (See ONC-1.3) • PET is not indicated for evaluation of recurrent
SCLC, but can be considered on a case-by-case basis. These cases should be forwarded for medical director review.
Complete or partial response to initial treatment, if prophylactic cranial irradiation (PCI) is planned.
• MRI Brain without and with contrast (CPT®70553)
Surveillance For new nodules see: CH-16 Solitary Pulmonary Nodule
• Either CT Chest without (CPT®71250) or with contrast (CPT®71260) every 4 months for first two years, and then annually
• For new nodules see: CH-16 Solitary Pulmonary Nodule
References 1. Cheng S, Evans WK, Stys-Norman D, and Shepherd FA, Chemotherapy for Relapsed Small Cell
Lung Cancer: A Systematic Review and Practice Guideline, J Thorac Oncol 2007;2:348-354. Ruckdeschel J. Cancer of the Lung: NSCLC and SCLC. In Abeloff (Ed.) Clinical Oncology. 3rd Ed.
Philadelphia, Elsevier, Inc., 2004,pp.1649-1743. National Comprehensive Cancer Network® NCCN Guidelines. V.1.2016. Small Cell Lung Cancer. Available at: http://www.nccn.org. Accessed June 8, 2016.
1. Kalemkerian GP, Gadgeel SM. Modern staging of small cell lung cancer. J Natl Compr Canc Netw. 2013; 11(1):99-104.
2. Podoloff DA, Ball DW, Ben-Josef E, et al. NCCN task force report: clinical utility of PET in a variety of tumor types. J Natl Compr Canc Netw. 209; 7 Suppl 2: S1-S26.
3. Lu YY, Chen JH, Liang JA, Chu S, Lin WY, Kao CH. 18F-FDG PET or PET/CT for detecting extensive disease in small-cell lung cancer: a systematic review and meta-analysis. Nucl Med Commun. 2014; 35(&):697-703.
4. Carter BW, Glisson BS, Truong MT, Erasmus JJ. Small cell lung carcinoma: staging, imaging, and treatment considerations. Radiographics. 2014; 34(6):1707-1721.
5. Kalemkerian G. Staging and imaging of small cell lung cancer. Cancer Imag. 2011; 11:253-258. 2.
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ONCOLOGY IMAGING GUIDELINES
ONC-8~Non-Small Cell Lung Cancer
ONC-8 Non-Small Cell Lung Cancer8.1 Asymptomatic Screening 54
8.2 Suspected/Diagnosis 56
8.3 Initial Workup/Staging 57
8.4 Restaging/Recurrence 58
8.5 Surveillance/Follow-Up 59
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ONCOLOGY IMAGING GUIDELINES
ONC-8~Non-Small Cell Lung Cancer
Non-small cell lung cancer includes adenocarcinoma, squamous cell carcinoma, and large cell neuroendocrine.
ONC-8.1 ASYMPTOMATIC SCREENING Screening Indications – Non-Medicare Imaging Study
All criteria below must be met for approval: • Patient has not received a low-dose CT lung
screening in less than 12 months, and • Patient has NO signs or symptoms* suggestive of
underlying lung cancer, and • Patient is able and willing to undergo curative lung
surgery, and • Patient is between 55 and 80 years of age, and • Patient has at least a 30 pack-year history of cigarette
smoking, and • Currently smokes or quit less than 15 years ago
Low-Dose Chest CT without contrast (either CPT®71250 or S8032, G0297)** **Code selection is based on individual payor claim payment policy.
NOTE: Certain payors’ policies may NOT include lung cancer screening. Their coverage policies may take precedence over eviCore guidelines.
Screening Indications - Medicare Imaging Study All criteria below must be met for approval: • Patient has not received a low-dose CT lung
screening in less than 12 months, and • Patient has NO signs or symptoms* suggestive of
underlying lung cancer, and • Patient is able and willing to undergo curative lung
surgery, and • Patient is between 55 and 77 years of age, and • Patient has at least a 30 pack-year history of cigarette
smoking, and • Currently smokes or quit less than 15 years ago • A written order for LDCT lung cancer screening that
documents counseling and shared decision making*
Low-Dose Chest CT without contrast (either CPT®71250 or S8032, not both)** **Code selection is based on individual payor claim payment policy.
NOTE: Certain payors’ policies may NOT include lung cancer screening. Their coverage policies may take precedence over eviCore guidelines.
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*A written order for LDCT lung cancer screening that meets the following criteria: • For the initial LDCT lung cancer screening service: the beneficiary must receive a
written order for LDCT lung cancer screening during a lung cancer screening counseling and shared decision making visit, furnished by a physician [as defined in Section 1861(r)(1) of the Social Security Act (the Act)] or qualified non-physician practitioner (physician assistant, nurse practitioner, or clinical nurse specialist as defined in §1861(aa)(5) of the Act).
• For subsequent LDCT lung cancer screenings: the beneficiary must receive a written order, which may be furnished during any appropriate visit (for example: during the Medicare annual wellness visit, tobacco cessation counseling services, or evaluation and management visit) with a physician (as defined in Section 1861(r)(1) of the Act) or qualified non-physician practitioner (physician assistant, nurse practitioner, or clinical nurse specialist as defined in Section 1861(aa)(5) of the Act).
• A lung cancer screening counseling and shared decision making visit includes the following elements (and is appropriately documented in the beneficiary’s medical records):
o Determination of beneficiary eligibility including age, absence of signs or symptoms of lung disease, a specific calculation of cigarette smoking pack-years; and if a former smoker, the number of years since quitting;
o Shared decision making, including the use of one or more decision aids, to include benefits, harms, follow-up diagnostic testing, over-diagnosis, false positive rate, and total radiation exposure;
o Counseling on the importance of adherence to annual LDCT lung cancer screening, impact of comorbidities and ability or willingness to undergo diagnosis and treatment;
o Counseling on the importance of maintaining cigarette smoking abstinence if former smoker, or smoking cessation if current smoker and, if appropriate, offering additional Medicare-covered tobacco cessation counseling services; and
o If appropriate, the furnishing of a written order for lung cancer screening with LDCT. Written orders for both initial and subsequent LDCT lung cancer screenings must contain the following information, which must also be documented in the beneficiaries’ medical records: Beneficiary date of birth, Actual pack-year smoking history (number); Current smoking status, and for former smokers, the number of years
since quitting smoking; Statement that the beneficiary is asymptomatic; and NPI of the ordering
practitioner *Patients that present with the following symptoms are not eligible for screening, rather, they should be considered symptomatic for lung cancer: unexplained cough, hemoptysis, or unexplained weight loss of more than 15 pounds in the past year.
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ONC-8.2 SUSPECTED/DIAGNOSIS Indication Imaging Study
• Abnormal chest X-ray or clinical suspicion remains high despite a normal chest X-ray in symptomatic patient
• CT Chest without contrast (CPT®71250) or • CT Chest with contrast (CPT®71260)
• Pulmonary nodule at least 8 mm (0.8 cm) to 30 mm (3 cm) seen on advanced chest imaging.CT Chest or MRI Chest
o See: CH-16 Solitary Pulmonary Nodule[EJG1]
See: CH-16 Solitary Pulmonary Nodule
• PET/CT (CPT® 78815) o If Negative: Repeat chest CT CT Chest
with (CPT®71260) or without contrast (CPT®71250)with or without contrast at 3, 9 and 24 months
o If Positive: Qualifies as initial diagnostic staging PET/CT
o If Inconclusive: Anatomic imaging or biopsy, not sequential PET/CT.
• Pulmonary mass 31 mm (3.1 cm) or greater seen on CT or MRI
• PET/CT (CPT® 78815) can be approved prior to biopsy if one or more of the following applies:
o Resection will be performed instead of biopsy if PET confirms limited disease
o Multiple possible biopsy options are present within the chest and PET findings will be used to determine the most favorable biopsy site
• Biopsy is indicated prior to PET imaging for all other indications in pulmonary masses ≥31 mm (3.1 cm) in size
Mediastinal/Hilar Mass See CH-2~Lymphadenopathy
Paraneoplastic syndrome suspected See ONC-2930.3 Paraneoplastic Syndromes
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ONC-8.3 INITIAL WORKUP/STAGING Indication Imaging Study
All patients Any or all of the following: • CT Chest (CPT®71260) with contrast • CT Abdomen (CPT®74160) with contrast
o CT Abdomen may be omitted if CT Chest report clearly documents clear upper abdomen through level of adrenals
• Bone scan, if PET/CT not being done (See ONC-1.3)
Any of the following: • All Stage I-IIIB disease • Stage IV disease confined to the
chest region (pleura/pericardium or solitary site including lung nodules)
• Conventional imaging is inconclusive
• PET/CT (CPT®78815) if not already completed prior to histological diagnosis
• PET not indicated for metastatic disease outside the chest cavity on CT or MRI, or if malignant pleural/pericardial effusion present (see Practice Note below)
Any of the following: • All Stage II-IV disease • Stage I disease and considering
surgical resection as primary therapy
• MRI Brain without and with contrast (CPT®70553)
Superior sulcus (Pancoast) tumor suspected
Any or all of the following: • MRI Chest without and with contrast
(CPT®71552) • MRI Cervical spine without and with
contrast (CPT®72156) • MRI Thoracic spine without and with
contrast (CPT®72157)
Practice Note: • PET for initial staging is not generally indicated for metastatic disease,
pleural/pericardial effusion, or for multiple sites that are located outside the chest cavity, when found on conventional imaging (i.e., liver, bone and adrenal mets, etc.).
• PET may be considered to confirm solitary focus of metastatic disease (i.e., brain or adrenal) if being considered for an aggressive surgical management.
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ONC-8.4 RESTAGING/RECURRENCE Indication Imaging Study
Stage I or II patients who undergo definitive local treatment with surgery, radiation, or radiosurgery
• Restaging imaging is not indicated. See Surveillance ONC-8.5
Measurable disease, undergoing active treatment
Any or all of the following every 2 cycles: • CT Chest with contrast (CPT®71260) • CT Abdomen with contrast (CPT®74160) o CT Abdomen/Pelvis with contrast
(CPT®74177) may be substituted for known pelvic disease or pelvic symptoms
• MRI Brain without and with contrast (CPT®70553) for measurable brain metastases being treated with systemic therapy
Any of the following: • Locally advanced (Stage III, non-
metastatic, unresectable) • Inoperable tumor if chemotherapy or
chemoradiation was the initial treatment modality
• Inadequately resected disease • Suspected recurrence
Any or all of the following: • CT Chest with contrast (CPT®71260) • CT Abdomen with contrast (CPT®74160)
o CT Abdomen/Pelvis with contrast (CPT®74177) may be substituted for known pelvic disease or pelvic symptoms
Determine resectability following neo-adjuvant therapy
• MRI Chest without and with contrast (CPT®71552)
Any of the following: • Newly identified abnormalities
localized to chest cavity (see CH-16~Solitary Pulmonary NoduleCH-16 for new nodule evaluation) on conventional imaging
• Inconclusive findings conventional imaging
• To differentiate tumor from radiation scar/fibrosis (also see CH-16 for new nodule evaluation)
• PET/CT (CPT® 78815) • PET/CT is not indicated if new findings
are obviously metastatic disease
Any of the following: • Following a demonstrated adequate
response to neoadjuvant therapy if intracranial disease will preclude
• MRI Brain without and with contrast (CPT®70553)
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surgery • Documented recurrence/progression • New or worsening neurological signs
or symptoms ONC-8.5 SURVEILLANCE/FOLLOW-UP Indication Study All patients • CT Chest with (CPT®71260) or without
contrast (CPT®71250) every 6 months for 2 years, then CT Chest without contrast (CPT®71250) annually
New lung nodule See CH-16~Solitary Pulmonary Nodule
References 1. Calman L, Beaver K, Hind D et al, Survival benefits from follow-up of patients with lung cancer: a
systematic review and meta-analysis, J Thorac Oncol,2011;6:1993-2004. 2. Lou F, Huang J, Sima CS et al, Patterns of recurrence and second primary lung cancer in early-stage
lung cancer survivors followed with routine computed tomography surveillance, J Thorac Cardiovasc Surg 2013;145:75-81.
3. Colt HG, Murgu SD, Korst RJ et al, Follow-up and surveillance of the patient with lung cancer after curative-intent therapy: diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines, Chest 2013;143:e437S-454S.
4. Dane B, Grechushkin V, Plank A et al, PET/CT vs. non-contrast CT alone for surveillance 1-year post lobectomy for stage I non-small cell lung cancer, Am J Nucl Med Mol Imaging 2013; 3:408-416.
5. Kalemkerian G, Staging and imaging of small cell lung cancer, Cancer Imag 2011; 11:253-258. 6.5. Ruckdeschel J. Cancer of the Lung: NSCLC and SCLC. In Abeloff (Ed.) Clinical Oncology. 3rd
Ed. Philadelphia, Elsevier, Inc., 2004,pp. 1649-1743. Pyenson BS, Sander MS, Jiang Y, Kahn H, and Mulshine JL. An actuarial analysis shows that offering lung cancer screening as an insurance benefit would save lives at relatively low cost, Health Affair 2012; 31:4:770-779.
7.6. MacMahon H, Austin JHM, Gamsu G et al, Guidelines for Management of Small Pulmonary Nodules Detected on CT Scans: A Statement from the Fleischner Society, Radiology 2005;237:395-400.
8. Al-Sarraf N, Gately K, Lucey J et al, Lymph node staging by means of positron emission tomography is less accurate in non-small cell lung cancer patients with enlarged lymph nodes: Analysis of 1145 lymph nodes, Lung Cancer 2008;60:62-68.
9. Pieterman RM, van Putten JWG, Meuzelaar JJ et al, Preoperative Staging of Non-Small Cell Lung Cancer with Positron-Emission Tomography, N Engl J Med 2000; 343:254-261.
10.7. Fischer B, Lassen U, Mortensen J et al, Preoperative Staging of Lung Cancer with combined PET-CT, N Engl J Med 2009; 361:32-39. Humphrey LL, Deffebach M, Pappas M et al, Screening for Lung Cancer with Low-Dose Computed Tomography: A Systematic Review to Update the U.S. Preventive Services Task Force Recommendation, Ann Intern Med 2013; 159:411-420.
8. The National Lung Screening Trial Research Team, Church TR, Black WC, eta l. Results of Initial Low-Dose Computed Tomographic Screening for Lung Cancer., N Engl J Med. 2013; 368(21):1980-1991. http://www.uspreventiveservicestaskforce
National Comprehensive Cancer Network® NCCN Guidelines. V.4.2016. Non-Small Cell Lung
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Cancer. Available at: http://www.nccn.org. Accessed June 8, 2016.
9. Zhao L, He ZY, Zhong XN, Cui ML. (18)FDG-PET/CT for detection of mediastinal nodal metastasis in non-small cell lung cancer: a meta-analysis. Surg Oncol. 2012; 21(3):230-236.
10. Lu J, Xu W, Kong F, Sun X, Zuo X. Meta-analysis: accuracy of 18FDG PET-CT for distant metastasis in lung cancer patients. Surg Oncol. 2013; 22(3):151-155.
11. Ravenel JG. Evidence-based imaging in lung cancer: a systematic review. J Thorac Imaging. 2012; 27(5):315-324.
12. Bille A, Pelosi E, Skanjeti A, et al. Preoperative intrathoracic lymph node staging in patients with non-small-cell lung cancer: accuracy of integrated positron emission tomography and computed tomography. Eur J Cardiothorac Surg. 2009; 36(3):440-445.
13. Deppen SA, Blume JD, Kensinger CD, et al. Accuracy of FDG-PET to diagnose lung cancer in areas with infectious lung disease: a meta-analysis. JAMA. 2014; 312(12):1227-1236.
11.
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ONC-9~Esophageal Cancer
ONC-9 Esophageal Cancer 9.1 Suspected/Diagnosis 62
9.2 Initial Workup/Staging 62
9.3 Restaging/Recurrence 63
9.4 Surveillance/Follow-Up 63
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ONC-9~Esophageal Cancer
ONC-9.1 SUSPECTED/DIAGNOSIS See NECK-3~DYSPHAGIA for imaging guidelines for evaluation of suspected
esophageal maligancncy
Suspected/Diagnosis Imaging Study All • Upper GI endoscopy (EGD), barium swallow
and endoscopic ultrasound and • CT chest with contrast (CPT®71260)
Practice Note:
Clinicians must describe esophageal cancer by cell type and in which third of the esophagus they occur. o Cancers of the upper and middle third are usually squamous cell and are highly
associated with tobacco and alcohol abuse. o Cancers of the gastroesophageal (GE) junction are treated as lower third cancers.
• Lower third cancers are usually adenocarcinomas; 62% of these arise in the setting of Barrett’s esophagus, a condition associated with high body mass index (BMI).
ONC-9.2 INITIAL WORKUP/STAGING Diagnosis Imaging Study
Biopsy proven • CT Chest and Abdomen with contrast (CPT®71260 and CPT®74160)
• CT Abdomen/Pelvis with contrast (CPT® 74177) may be approved instead of CT Abdomen if there are pelvic signs or symptoms
Upper 1/3 or neck mass • CT Neck with contrast (CPT®70491) for upper 1/3 primary and/or neck mass
Prior to start of neoadjuvant therapy in preparation for surgery and no evidence of metastatic disease by conventional imaging
• PET/CT (CPT®78815)
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ONC-9.3 RESTAGING/RECURRENCE Indication Imaging Study
After primary chemoradiation therapy prior to surgery (post-surgical resection see surveillance ONC-9.4)
• CT Chest (CPT®71260) and Abdomen (CPT®74160) with contrast
• If conventional imaging is inconclusive or
• Salvage surgical candidate with recurrence and no metastatic disease documented by conventional imaging
• PET/CT (CPT®78815) o PET imaging can be done as early as 6
weeks after completion of XRT if recent CT findings are inconclusive and PET findings will alter immediate care decision making
If signs or symptoms of recurrence; biopsy proven on follow-up endoscopy or recurrence suggested by other imaging (i.e. CXR or barium swallow)
• CT Chest (CPT®71260) and Abdomen (CPT®74160) with contrast
If previously involved or new signs or symptoms
• CT Pelvis with contrast (CPT®72193) and/or CT Neck with contrast (CPT®70491)
ONC-9.4 SURVEILLANCE/FOLLOW-UP Indication Imaging Study
Stage 0-I disease • No routine advanced imaging indicated
Stage 2II-3III diseaseFor T1bN+ or T2 or greater:
• CT Chest (CPT®71260) and Abdomen (CPT®74160) with contrast every 6 months for 235 years then annually until year 5.
Stage IV disease • See ONC-1.2 Phases of Oncology Imaging and General Phase-Related Considerations
Practice Note: Surveillance imaging for esophageal cancer is controversial and evidence in the peer-reviewed literature is lacking regarding any clinical benefit. Given the current literature, the above surveillance imaging recommendations are clinically appropriate.
References 1. Swisher SG, Erasmus J, Maish M et al, 2-Fluoro-2-deoxy-D-glucose positron emission tomography
imaging is predictive of pathologic response and survival after preoperative chemoradiation in patients with esophageal carcinoma, Cancer 2004;101:1776-1785.
2.1. Klaeser B, Nitzsche E, Schuller JC et al, Limited predictive value of FDG-PET for response assessment in the preoperative treatment of esophageal cancer: results of a prospective multi-center trial (SAKK 75/02), Onkologie 2009;32:724-730.
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3.2. Malik V, Lucey JA, Duffy GJ, and Wilson L, Early repeated 18F-FDG PET scans during neoadjuvant chemoradiation fail to predict histopathologic response or survival benefit in adenocarcinoma of the esophagus, J Nucl Med 2010;51:1863-1869.
4.3. Stiekema J, Vermeulen D, Vegt E et al, Detecting interval metastases and response assessment using 18F-FDG PET/CT after neoadjuvant chemoradiotherapy for esophageal cancer, Clin Nucl Med 2014;39:862-867.
5.4. Sudo K, Taketa T, Correa AM et al, Locoregional Failure Rate After Preoperative Chemoradiation of Esophageal Adenocarcinoma and the Outcomes of Salvage Strategies, J Clin Oncol 2013;31:4306-4310.
6.5. Sudo K, Xiao L, Wadhwa R et al, Importance of Surveillance and Success of Salvage Strategies After Definitive Chemoradiation in Patients with Esophageal Cancer, J Clin Oncol 2014;32:3400-3405.
6. Lou F, Sima C, Adusumilli PS et al, Esophageal Cancer Recurrence Patterns and Implications for Surveillance, J Thorac Oncol 2013;8:1558–1562.
7. Goense L, van Rossum PS, Reitsma JB, et al. Diagnostic performance of 18F-FDG PET and PET/CT for the detection of recurrent esophageal cancer after treatment with curative intent: a systematic review and meta-analysis. J Nucl Med. 2015; 56(7):995-1002.
National Comprehensive Cancer Network® NCCN Guidelines. V.1.2016. Esophageal and Esophagogastric Junction Cancers. Available at: http://www.nccn.org. Accessed June 8, 2016.
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ONC-10~Other Thoracic Tumors
ONC-10 Other Thoracic Tumors
10.1 Malignant Pleural Mesothelioma Suspected/Diagnosis 66
10.2 Malignant Pleural Mesothelioma Initial Workup/Staging 66
10.3 Malignant Pleural Mesothelioma Restaging 66
10.4 Malignant Pleural Mesothelioma Surveillance 67
10.5 Thymoma and Thymic Carcinoma Suspected/Diagnosis 67
10.6 Thymoma and Thymic Carcinoma Initial Workup/Staging 68
10.7 Thymoma and Thymic Carcinoma Restaging 69
10.8 Thymoma and Thymic Carcinoma Surveillance 69
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ONC-10.1 Malignant Pleural Mesothelioma—SUSPECTED/DIAGNOSIS
See CH-9~Asbestos Exposure for imaging guidelines for evaluation of suspected mesothelioma
Suspected/Diagnosis Imaging Study Screening for mesothelioma (asbestos exposure)
• CXR o CT Chest with (CPT®71260) or without
contrast (CPT®71250) for abnormal CXR with follow up every 3-6 months
• See CH-9~Asbestos Exposure Screening for lung cancer (smoking history)
See ONC-8.1
Suspected mesothelioma • CT Chest with (CPT®71260) or without contrast (CPT®71250) if not recently done
ONC-10.2 Malignant Pleural Mesothelioma—INITIAL WORKUP/STAGING
Diagnosis Imaging Study Cytologically or pathologically proven
• CT Chest (CPT®71260) and Abdomen (CPT®74160) with contrast
• CT Abdomen/Pelvis with contrast (CPT® 74177) may be approved instead of CT Abdomen if there are pelvic signs or symptoms
• PET/CT (CPT®78815) if no evidence of metastatic disease or inconclusive conventional imaging.
Preoperative planning • MRI Chest without and with contrast (CPT®71552)
ONC-10.3 Malignant Pleural Mesothelioma—RESTAGING
Indication Imaging Study Signs or symptoms of suspecting recurrence
• CT Chest (CPT®71260) and Abdomen (CPT®74160) with contrast
• CT Abdomen/Pelvis with contrast (CPT® 74177) may be approved instead of CT Abdomen if there are pelvic signs or symptoms
Treatment with chemotherapy Every 2 cycles: • CT Chest (CPT®71260) and Abdomen (CPT®74160)
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with contrast • CT Abdomen/Pelvis with contrast (CPT® 74177) may
be approved instead of CT Abdomen if there are pelvic signs or symptoms
• Following induction chemotherapy prior to surgical resection, PET/CT (CPT®78815) if no evidence of metastatic disease
Inconclusive Chest CT • MRI Chest without and with contrast (CPT®71552)
ONC-10.4 Malignant Pleural Mesothelioma—SURVEILLANCE
Indication Imaging Study
All CT Chest with contrast (CPT®71260) and previously involved regions every 3 months for 2 years, then annually for life.
ONC-10.5 THYMOMA and THYMIC CARCINOMA— SUSPECTED/DIAGNOSIS
See CH-21~Mediastinal Mass for imaging guidelines for evaluation of suspected thymic malignancies
Suspected/Diagnosis Imaging Study • Suspicion of myasthenia gravis
(including laboratory studies); • abnormal mediastinal finding on
chest X-ray; • signs or symptoms of mediastinal
mass
• CT Chest with contrast (CPT®71260)
For inconclusive findings One of the following: • Octreotide scan (CPT®78800, 78801, 78802,
78803, or 78804) PET/CT (CPT®78815) or • MRI chest with and without contrast (CPT®
71552)
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ONC-10.6 THYMOMA and THYMIC CARCINOMA— INITIAL WORKUP/STAGING
Diagnosis Imaging Study Encapsulated or invasive limited disease • CT Chest with contrast (CPT®71260) Extensive mediastinal involvement on Chest CT
• CT Abdomen with contrast (CPT®74160) • CT Neck with contrast (CPT®70491)
Inconclusive finding on CT One of the following: • Octreotide scan (CPT®78800, 78801, 78802,
78803, or 78804) • PET/CT (CPT®78815) • MRI Chest without and with contrast (CPT®
71552) Preoperative planning • MRI Chest without and with contrast
(CPT®71552) Thymic Carcinomas Image according to ONC-8 Non-Small Cell Lung
Cancer
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ONC-10.7 THYMOMA and THYMIC CARCINOMA— RESTAGING Indication Study
Adjuvant therapy following surgical resection
• Follow surveillance imaging
For suspected recurrence • CT Chest with contrast (CPT®71260) Recurrence with extensive mediastinal involvement on chest CT
• CT Abdomen with contrast (CPT®74160) • CT Neck with contrast (CPT®70491)
Thymic carcinomas See ONC-8 Non-Small Cell Lung Cancer8 Inconclusive finding on CT One of the following:
• Octreotide scan (CPT®78800, 78801, 78802, 78803, or 78804)
• PET/CT (CPT®78815) • MRI Chest without and with contrast (CPT®
71552) Extensive disease on chemotherapy • CT Neck (CPT®70491), Chest (CPT®71260),
and Abdomen (CPT®74160) with contrast, every 2 cycles of therapy
• Following induction chemotherapy prior to surgical resection, PET/CT (CPT®78815) if no evidence of metastatic disease
ONC-10.8 THYMOMA and THYMIC CARCINOMA— SURVEILLANCE
Indication Study Thymoma • CT Chest with contrast (CPT®71260) and previously
involved regions every 6 months for 2 years, then annually for next 10 years
Thymic carcinomas • CT Chest with contrast (CPT®71260) every 6 months for 2 years and then annually for 5 years
References 1. Sørensen JB, Ravn J, Loft A et al, Preoperative staging of mesothelioma by 18F-fluoro-2-deoxy-D-glucose
positron emission tomography/computer tomography fused imaging and mediastinoscopy compared to pathological findings after extrapleural pneumonectomy, Eur J Cardiothorac Surg 2008;34:1090-1096.
2. Plathow C, Staab A, Schmaehl A et al, Computed Tomography, Positron Emission Tomography, Positron Emission Tomography/Computed Tomography, and Magnetic Resonance Imaging for Staging of Limited Pleural Mesothelioma, Invest Radiol 2008;43:737-744.
3. Wilcox BE, Subramaniam RM, Peller PJ et al, Utility of Computed Tomography-Positron Emission Tomography for Selection of Operable Malignant Pleural Mesothelioma, Clin Lung Cancer 2009;10:244-248.
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4. Miller WT Jr, Gefter WB, and Miller WT Sr, Asbestos-related chest diseases: Plain radiographic findings, Semin Roentgenol 1992;27:102-120. Kao SC, Yan TD, Lee K et al, Accuracy of Diagnostic Biopsy for the Histological Subtype of Malignant Pleural Mesothelioma, J Thorac Oncol 2011;6:602-605.
5. Grellier L, Cavailles A, Fraticelli A et al, Accuracy of pleural biopsy using thorascopy for the diagnosis of histologic subtype in malignant pleural mesothelioma, Cancer 2007;110:2248-2252.
6. Ettinger DS, Wood DE, Riely GJ et al, National Comprehensive Cancer Network (NCCN) Guidelines Version 1.2015. Thymomas and Thymic Carcinomas, available at: http://www.nccn.org/professionals/physician_gls/pdf/thymic.pdf. Referenced with permission from the NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines™) for Thymomas and Thymic Carcinomas V1.2015. ©2015 National Comprehensive Cancer Network, Inc. All rights reserved. The NCCN Guidelines™ and illustrations herein may not be reproduced in any form for any purpose without the express written permission of the NCCN. To view the most recent and complete version of the NCCN Guidelines™, go online to NCCN.org.
6. Marom EM, Imaging Thymoma, J Thorac Oncol 2010;5:S296-S303. 7. Marom EM. Advances in thymoma imaging. J Thorac Imaging. 2013; 28(2):69-80. 8. Hayes SA, Huang J, Plodkowski AJ, et al. Preoperative computed tomography findings predict
surgical resectability of thymoma. J Thorac Oncol. 2014; 9(7):1023-1030. 9. Oncology volume 12 pages 1164-1175 2012 10. Cao S, Jin S, Cao J, et al. Advances in malignant peritoneal mesothelioma. Int J Colorectal Dis.
2015; 30(1):1-10.
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ONCOLOGY IMAGING GUIDELINES
ONC-11~BREAST CANCER
ONC-11 Breast Cancer 11.1 Suspected/Diagnosis 72
11.2 Initial Workup/Staging 72
11.3 Restaging/Recurrence 73
11.4 Surveillance/Follow Up 74
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ONC-11~BREAST CANCER
Also see CH-27.5 Breast MRI Indications in the Chest Imaging Guidelines.
ONC-11.1 SUSPECTED/DIAGNOSIS See CH-25.6 Breast MRI Indications for imaging guidelines for evaluation of
suspected breast cancer
Suspected/Diagnosis Imaging Study All women and men • Diagnostic mammography, supplemented with
ultrasound, occasionally, breast MRI and biopsy. (See: CH-25.5 Breast MRI Indications)
ONC-11.2 INITIAL WORKUP/STAGING
Initial Work-up/Staging Imaging Study Biopsy proven and/or adenocarcinoma in axillary lymph node
• Bilateral breast MRI (CPT®77059)
Operable disease (stage I and II) • No advanced imaging needed
• For planned sentinel lymph node biopsy: Lymph system imaging (lymphoscintigraphy, CPT®78195)
Clinical Stage III and Stage IV disease, prior to neoadjuvant therapy for stage III disease or higher, or for signs or symptoms of systemic disease
Any or all of the following: • CT Chest (CPT®71260) and
Abdomen/Pelvis (CPT®74177) with contrast
• Bone scan (See ONC-1.3) Inconclusive CT and bone scan • PET/CT (CPT® 78815) Bone pain See: ONC-31.5 Bone (and Spine) See: ONC-31.6 Spinal Cord Compression
• Bone scan(See ONC-1.3) ( o See Practice Note below o See: ONC-31.5 Bone (and
Spine) o See: ONC-31.6 Spinal Cord
Compression
*PET is not indicated for the following: o Non-invasive breast cancers
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o Prior to lymph node sampling in a patient with clinical Stage I, II, or operable IIIA disease
o Obvious multi-organ metastatic disease is present on CT or MRI
Practice Note: • Bone scan has a high concordance rate with PET for detecting bone metastases. • Scintimammography and Breast Specific Gamma Imaging (BSGI) are considered
experimental and investigational.
ONC-11.3 RESTAGING/RECURRENCE Indication Imaging Study
Any of the following: • Biopsy proven breast or chest wall
recurrence • Suspicion of recurrence with inconclusive
mammogram and/or ultrasound (BIRADS 0)
• Mammogram and ultrasound conflicts with physical exam
• End of planned neoadjuvant chemotherapy to determine resectability
•
• Bilateral MRI Breast without and with contrast (CPT®77059)
Any of the following: • Elevated LFTs • Rising tumor markers • Signs or symptoms of recurrence • Biopsy proven recurrence
Any or all of the following: • CT Chest (CPT®71260) and
Abdomen/Pelvis (CPT®74177) with contrast
• Bone scan (See ONC-1.3) Treatment response in patients with metastatic disease and measurable disease on imaging
Any or all of the following for patients being treated with chemotherapy, every 2-4 cycles: • CT Chest (CPT®71260) and
Abdomen/Pelvis (CPT®74177) with contrast
• Bone scan (See ONC-1.3) • MRI Brain without and with contrast
(CPT® 70553) for patients receiving systemic treatment for brain metastases
Any or all of the following for patients being treated with endocrine/hormonal therapy, every 3 months: • CT Chest (CPT®71260) and
Abdomen/Pelvis (CPT®74177) with
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contrast • Bone scan (See ONC-1.3)
Inconclusive CT, MRI, and/or bone scan for suspected recurrence, and further characterization is needed to make treatment decisions
• PET/CT (CPT® 78815)
Any of the following: • Assessing for residual disease after surgery • Assessing response to neoadjuvant
chemotherapy • After lumpectomy or mastectomy, prior to
adjuvant therapy
• No advanced imaging • Neither PET nor CT are indicated to
assess response to neoadjuvant chemotherapy
• Bone metastasis as the only site of stage IV disease (excluding brain mets) and a prior bone scan has not been performed for serial comparison
• PET/CT (CPT® 78815)
ONC-11.4 SURVEILLANCE/FOLLOW UP
Indication Imaging Study Metastatic disease on a break from therapy with persistent measurable disease
Any or all of the following, every 3 months: • CT Chest (CPT®71260) and Abdomen/Pelvis
(CPT®74177) with contrast • Bone scan (See ONC-1.3)
Asymptomatic non-metastatic disease • No advanced imaging indicated Breast imaging surveillance, including after bilateral mastectomy
• See CH-25.6 Breast MRI Indications for imaging guidelines
References 1. Cardoso F, Costa A, Norton L et al, ESO-ESMO 2nd international consensus guidelines for advanced
breast cancer (ABC2), Ann Oncol 2014;25:1871-1888. 2. Kumar R, Chauhan A, Zhuang H et al, Clinicopathologic factors associated with false negative
FDG-PET in primary breast cancer, Breast Cancer Res Treat 2006;98:267-274. 3. Lim HS, Yoon W, Chung TW et al, FDG PET/CT for the Detection and evaluation of Breast
Diseases: Usefulness and Limitations, Radiographics 2007;27:S197-213. 4. Rosen EL, Eubank WB, and Mankoff DA, FDG PET, PET/CT and Breast Cancer Imaging,
Radiographics 2007;27:S215-229. 5. Wahl RL, Siegel BA, Coleman E, and Gatsonis CG, Prospective Multicenter Study of Axillary
Nodal Staging by Positron Emission tomography in Breast cancer: A Report of the Staging Breast Cancer With PET Study Group, J Clin Oncol 2004;22:277-285.
6. Uematsu T, Yuen S, Yukisawa S et al, Comparison of FDG PET and SPECT for Detection of Bone Metastases in Breast Cancer, AJR Am J Roentgenol 2005;184:1266-1273.
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7. Eubank WB, Mankoff D, Bhattacharya M et al, Impact of FDG PET on Defining the Extent of Disease and on the Treatment of Patients with Recurrent or Metastatic Breast Cancer, AJR Am J Roentgenol 2004;183:479-486.
8.2. Khatcheressian JL, Hurley P, Bantug E et al, Breast Cancer Follow-Up and Management After Primary Treatment: American Society of Clinical Oncology Clinical Practice Guideline Update, J Clin Oncol 2013;31:961-965.
3. Puglisi F, Follador A, Minisini AM et al, Baseline staging tests after a new diagnosis of breast cancer: further evidence of their limited indications, Ann Oncol 2005:16:263-266.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Breast Cancer. V2. 2016. Available at: www.nccn.org. Accessed June 15, 2016.
4. Rong J, Wang S, Ding Q, Yun M, Zheng Z, Ye S. Comparison of 18 FDG PET-CT and bone scintigraphy for detection of bone metastases in breast cancer patients. A meta-analysis. Surg Oncol. 2013; 22(2):86-91.
5. Hong S, Li J, Wang S. 18FDG PET-CT for diagnosis of distant metastases in breast cancer patients. A meta-analysis. Surg Oncol. 2013; 22(2):139-143.
6. Cheng X, Li Y, Liu B, Xu Z, Bao L, Wang J. 18F-FDG PET/CT and PET for evaluation of pathological response to neoadjuvant chemotherapy in breast cancer: a meta-analysis. Acta Radiol. 2012; 53(6):615-627.
7. Pacella CM, Mauri G, Achille G, et al. Outcomes and risk factors for complications of laser ablation for thyroid nodules: a multicenter study of 1531 patients. J Clin Endocrinol Metab. 2015; 100(10):3903-3910.
8. Simos D, Catley C, van Walraven C, et al. Imaging for distant metastases in women with early-stage breast cancer: a population-based cohort study. CMAJ. 2015; 187(12):E387-E397.
9. Crivello ML, ruthRuth K, Sigurdson ER, et al. Advanced imaging modalities in early stage breast cancer: preoperative use in the United States Medicare population. Ann Surg Oncol. 2013; 20(1):102-110.
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ONCOLOGY IMAGING GUIDELINES
ONC-12~BONE and SOFT TISSUE SARCOMAS/GIST
ONC-12 BONE and SOFT TISSUE SARCOMAS/GIST
12.1 General Considerations 77
12.2 Soft Tissue Sarcomas Initial Workup/Staging 77
12.3 Soft Tissue Sarcomas Restaging/Recurrence 80
12.4 Soft Tissue Sarcomas Surveillance/Follow-Up 81
12.5 Gastrointestinal Stromal Tumor (GIST) 82
12.6 Bone Sarcomas Initial Workup/Staging 83
12.7 Bone Sarcomas Restaging/Recurrence 84
12.8 Bone Sarcomas Surveillance/Follow-Up 85
12.9 Benign Bone Tumors General Considerations 86
12.10 Benign Bone Tumors Initial Workup/Staging 86
12.11 Benign Bone Tumors Restaging/Recurrence 87
12.12 Benign Bone Tumors Surveillance 87
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ONCOLOGY IMAGING GUIDELINES
ONC-12~BONE and SOFT TISSUE SARCOMAS/GIST
ONC-12.1 BONE AND SOFT TISSUE SARCOMA GENERAL CONSIDERATIONS Sarcomas are tumors of mesenchymal origin, classified as high-, intermediate-, and low-grade tumors (sometimes described as “spindle cell” cancers). They can arise in any bony, cartilaginous, smooth muscle, skeletal muscle, or cardiac muscle tissue.
Sarcomas occur in both adult and pediatric patients, but some are more common in one age group than the other. Unless specified below, patients age ≥18 years old should be imaged according to this guideline section. Exceptions include: • Rhabdomyosarcoma patients of all ages should be imaged according to guidelines in
PEDONC-8.2 Rhabdomyosarcoma • Osteogenic sarcoma patients of all ages should be imaged according to guidelines in
PEDONC-9.3 Osteogenic Sarcoma (OS) • Ewing sarcoma and Primitive Neuroectodermal Tumor patients of all ages should be
imaged according to guidelines in PEDONC-9.4 Ewing Sarcoma and Primitive Neuroectodermal Tumors (ESFT).
• Chondrosarcoma patients of all ages should be imaged according to guidelines in ONC-12.4 Bone Sarcomas
• Chordoma patients of all ages should be imaged according to guidelines in ONC-12.4 Bone Sarcomas
• Giant cell tumor of bone and enchondroma patients of all ages should be imaged according to guidelines in ONC-12.5 Benign Bone Tumors
• Other benign bone tumor patients of all ages should be imaged according to guidelines in PEDONC-9.2 Benign Bone Tumors
• Kaposi’s sarcoma patients of all ages should be imaged according to guidelines in ONC-31.10 Kaposi’s Sarcoma
ONC-12.2 SOFT TISSUE SARCOMAS—INITIAL WORKUP/STAGING
Indication Imaging Study Retroperitoneal or intraabdominal primary site
Any or all of the following: • CT Chest with (CPT®71260) or without contrast
(CPT®71250) • Either CT Abdomen/Pelvis with contrast
(CPT®74177) or MRI Abdomen (CPT®74183) and Pelvis (CPT®72197) without and with contrast
Any of the following: • Extremity or trunk primary site
Any or all of the following: • MRI without and with contrast of involved area
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• Head or neck primary site • Angiosarcoma • Alveolar soft part sarcoma, • Clear cell sarcoma • Epithelioid sarcoma • Hemangiopericytoma • Other histologies documented to
have propensity for lymphatic spread and deep-seated tumors
• CT Chest with (CPT®71260 ) or without contrast (CPT®71250)
Any of the following: • Angiosarcoma • Alveolar soft part sarcoma • Clear cell sarcoma • Epithelioid sarcoma • Hemangiopericytoma • Leiomyosarcoma • Other histologies documented to
have propensity for lymphatic spread and deep-seated tumors
Any or all of the following: • MRI without and with contrast of involved area • CT Chest with (CPT®71260) or without contrast
(CPT®71250) • Either CT Abdomen/Pelvis with contrast
(CPT®74177) or MRI Abdomen (CPT®74183) and Pelvis (CPT®72197) without and with contrast
Myxoid round cell liposarcoma Any or all of the following: • MRI without and with contrast of involved area • CT Chest with (CPT®71260) or without contrast
(CPT®71250) • Either CT Abdomen/Pelvis with contrast
(CPT®74177) or MRI Abdomen (CPT®74183) and Pelvis (CPT®72197) without and with contrast
• MRI Cervical/Thoracic/Lumbar spine without and with contrast (CPT®72156, 72157, and 72158)
Any of the following: • Angiosarcoma • Alveolar soft part sarcoma • All patients with signs/symptoms
of brain metastases
• MRI Brain without and with contrast (CPT®70553)
Any of the following: • Grade of tumor in doubt following
biopsy • conventional Conventional imaging
suggests solitary metastasis amenable to surgical resection
• Planning neoadjuvant therapy to assist in assessing response to
• PET/CT (CPT® 78815 or 78816)
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therapy prior to surgical resection for tumors >3cm
Desmoid Tumors One of the following: • CT without contrast or with contrast of the
affected body part • MRI without contrast or without and with contrast
of the affected body part • Imaging of lung, lymph node, and metastatic site
for these tumors is not indicated Dermatofibrosarcoma Protuberans (DFSP)
One of the following: • CT without contrast or with contrast of the
affected body part • MRI without contrast or without and with contrast
of the affected body part • CT Chest with (CPT®71260 ) or without contrast
(CPT®71250 for pulmonary symptoms, abnormal chest X-ray, or sarcomatous differentiation
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ONC-12.3 SOFT TISSUE SARCOMAS—RESTAGING/RECURRENCE Indication Imaging Study
Any of the following: • After preoperative
radiotherapy • After surgical resection • After adjuvant radiotherapy
• MRI without and with contrast of affected body area
• CT without contrast or with contrast can be added if demonstrated bone involvement
• Chest or lymph node imaging is not indicated if no abnormality on previous imaging
Any of the following: • Differentiate tumor from
radiation or surgical fibrosis • Determine response to
neoadjuvant therapy • Confirm oligometastatic
disease prior to curative intent surgical resection
• PET/CT (CPT® 78815 or 78816)
Chemotherapy response for patients with measurable disease
• CT with contrast or MRI without and with contrast of affected body area every 2 cycles
Local recurrence suspected • Repeat all imaging for initial workup of specific histology and/or primary site
Preoperative planning prior to resection
Any or all of the following: • MRI without contrast or without and with contrast
of involved area • CT (contrast as requested) of involved area
Dermatofibrosarcoma Protuberans (DFSP)
One of the following: • CT without contrast or with contrast of the
affected body part • MRI without contrast or without and with contrast
of the affected body part • CT Chest with (CPT®71260 ) or without contrast
(CPT®71250 for pulmonary symptoms, abnormal chest X-ray, or sarcomatous differentiation
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ONC-12.4 SOFT TISSUE SARCOMAS—SURVEILLANCE/FOLLOW UP
Indication Imaging Study Retroperitoneal/intraabdominal primary site
Any or all of the following every 3 months for 2 years, then every 6 months for 2 more years, then annually until year 10: • CT Chest with (CPT®71260) or without
contrast (CPT®71250) • CT Abdomen/Pelvis with contrast
(CPT®74177) • CT with contrast or MRI without and with
contrast of any other involved body areas Extremity, trunk, or Head/Neck primary site, low grade Stage I disease
Any or all of the following every 6 months for 2 years, then annually until year 10: • Chest X-ray
o CT Chest with (CPT®71260) or without contrast (CPT®71250) is indicated for new findings on CXR or new/worsening pulmonary signs/symptoms
• CT with contrast, MRI without contrast, or MRI without and with contrast of primary site if primary site not easily evaluated by physical exam
Extremity, trunk, or Head/Neck primary site, Stages II-IV disease.
Any or all of the following every 3 months for 2 years, then every 6 months for 2 more years, then annually until year 10:
• CT with contrast, MRI without contrast, or MRI without and with contrast of primary site
• CT Chest with (CPT®71260) or without contrast (CPT®71250)
• CT with contrast or MRI without and with contrast of any other involved body areas
Desmoid tumors One of the following every 6 months for 3 years, then annually: • CT without contrast or with contrast of the
affected body part • MRI without contrast or without and with
contrast of the affected body part Dermatofibrosarcoma Protuberans • No routine imaging unless clinical
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ONC-12.5 GASTROINTESTINAL STROMAL TUMOR (GIST) Indication Imaging Study
Suspected/Diagnosis • CT Abdomen/Pelvis with contrast (CPT®74177) Initial Workup/Staging • CT Chest (CPT®71260 ) and Abdomen/Pelvis
(CPT®74177) with contrast • MRI Abdomen without and with contrast
(CPT®74183) is indicated for evaluation of liver lesions that are equivocal on CT imaging or for preoperative assessment of liver
• PET is indicated for evaluation of inconclusive findings on conventional imagingPET can be considered for inconclusive conventional imaging or if considering neoadjuvant TKI therapy, but is not a substitute for CT with contrast
Restaging/Recurrence • CT Abdomen/Pelvis with contrast (CPT®74177) • CT Chest with contrast (CPT®71260) if prior
evidence of chest disease or signs or symptoms of chest disease
• PET is indicated for evaluation of inconclusive findings on conventional imaging
Treatment Response • CT Abdomen/Pelvis with contrast (CPT®74177) • CT Chest with contrast (CPT®71260) if prior
evidence of chest disease or signs or symptoms of chest disease
• PET is indicated for evaluation of inconclusive findings on conventional imagingPET is indicated to assess response to neoadjuvant TKI therapy or to clarify findings on conventional imaging
Surveillance/Follow-up • CT Abdomen/Pelvis with contrast (CPT®74177) every 6 months for 5 years, then annually
Practice Note: GISTs are mesenchymal neoplasms of the gastrointestinal (GI) tract, mostly found in the stomach and upper small bowel, commonly metastasizing to the liver and abdominal cavity, and primarily treated with surgery.
Use of the tyrosine kinase inhibitors (TKI), Imatinib mesylate (Gleevec®) and Sunitinib malate (Sutent®), has substantially changed imaging and treatment paradigms for GIST.
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ONC-12.6 BONE SARCOMAS—INITIAL WORKUP/STAGING Indication Imaging Study
Chondrosarcoma Any or all of the following: • MRI without contrast or without and with
contrast of involved area • CT (contrast as requested) of involved area CT Chest with (CPT®71260) or without contrast (CPT®71250)
Chordoma Any or all of the following: • MRI without contrast or without and with
contrast of involved area • CT (contrast as requested) of involved area
CT Chest with (CPT®71260) or without contrast (CPT®71250)
• CT Abdomen/Pelvis with contrast (CPT®74177)
• Bone scan(See ONC-1.3) • PET may be approved for inconclusive
conventional imaging.
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ONC-12.7 BONE SARCOMAS—RESTAGING/RECURRENCE Indication Imaging Study
Chondrosarcoma Any or all of the following, after completion of radiotherapy or every 2 cycles of chemotherapy: • MRI without contrast or without and with contrast
of involved area • CT (contrast as requested) of involved area
CT Chest with (CPT®71260) or without contrast (CPT®71250)
Chordoma Any or all of the following, after completion of radiotherapy or every 2 cycles of chemotherapy: • MRI without contrast or without and with contrast
of involved area • CT (contrast as requested) of involved area • Bone scan (See ONC-1.3) • PET may be approved for inconclusive
conventional imaging
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ONC-12.8 BONE SARCOMAS—SURVEILLANCE/FOLLOW UP Indication Imaging Study
Low Grade Chondrosarcoma Any or all of the following every 6 months for 2 years, then annually until year 10: • Plain x-ray of primary site
o MRI without and with contrast is indicated for new findings on plain x-ray or new/worsening clinical symptoms.
• Chest x-ray o CT Chest with (CPT®71260) or without
contrast (CPT®71250) for new findings on CXR, or new/worsening signs/symptoms.
High Grade Chondrosarcoma Any or all of the following every 6 months for 5 years, then annually until year 10: • Plain x-ray of primary site
o MRI without and with contrast is indicated for new findings on plain x-ray or new/worsening clinical symptoms.
• Chest x-ray o CT Chest with (CPT®71260) or without
contrast (CPT®71250) for new findings on CXR, or new/worsening signs/symptoms
Chordoma • CT Abdomen with contrast (CPT® 74160) annually until year 10.
Any or all of the following every 6 months for 5 years, then annually until year 10: • Plain x-ray of primary site
o MRI without and with contrast is indicated for new findings on plain x-ray or new/worsening clinical symptoms.
• Chest x-ray o CT Chest with (CPT®71260) or without
contrast (CPT®71250) for new findings on CXR, or new/worsening signs/symptoms
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ONC–12.9 BENIGN BONE TUMORS—GENERAL CONSIDERATIONS • Variety of diagnoses, including osteoid osteochondroma, chondroblastoma,
desmoplastic fibroma, Paget’s disease, osteoid osteoma and others • Plain X-ray appearance is diagnostic for many benign bone tumors and advanced
imaging is generally unnecessary except for preoperative planning • MRI without and with contrast is the primary modality for advanced imaging of bone
tumors, and can be approved to help narrow differential diagnoses and determine whether biopsy is indicated
• Some benign bone tumor types carry a risk of malignant degeneration over time, but routine advanced imaging surveillance has not been shown to improve outcomes for these patients
• MRI without and with contrast can be approved to evaluate new findings on plain X-ray new/worsening clinical symptoms not explained by a recent plain X-ray
• There are no data to support the use of PET in the evaluation of benign bone tumors, and PET requests should not be approved without biopsy confirmation of a malignancy
ONC-12.10 BENIGN BONE TUMORS—INITIAL WORKUP/STAGING Indication Imaging Study
Giant Cell Tumor of Bone (GCTB) Any or all of the following: • MRI without contrast or without and with
contrast of involved area • CT (contrast as requested) of involved area • CT Chest with (CPT®71260) or without
contrast (CPT®71250) • Bone scan (See ONC-1.3)
Enchondroma • MRI without contrast or without and with contrast of primary site
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ONC-12.11 BENIGN BONE TUMORS—RESTAGING/RECURRENCE Indication Imaging Study
Giant Cell Tumor of Bone (GCTB)
Any or all of the following, after completion of radiotherapy or every 2 cycles of chemotherapy: • MRI without contrast or without and with contrast
of involved area • CT (contrast as requested) of involved area • Bone scan (See ONC-1.3)
Enchondroma • Generally no indication for this benign tumor unless symptoms
ONC-12.12 BENIGN BONE TUMORS—SURVEILLANCE/FOLLOW UP
Indication Imaging Study Giant Cell Tumor of Bone (GCTB)
Any or all of the following every 6 months for 2 years, then annually until year 10: • Plain x-ray of primary site
o MRI without and with contrast is indicated for new findings on plain x-ray or new/worsening clinical symptoms.
• Chest x-ray o CT Chest with (CPT®71260) or without
contrast (CPT®71250) for new findings on CXR, or new/worsening signs/symptoms.
Enchondroma • Plain films of primary site
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References 1. Lee FY, Mankin HJ, Fondren G et al, Chondrosarcoma of bone: an assessment of outcome, J Bone
Joint Surg Am 1999;81:326-338. 2.1. Nishiguchi T, Mochizuki K, Ohsawa M et al, Differentiating benign notochordal cell tumors
from chordomas: radiographic features on MRI, CT, and tomography, AJR Am J Roentgenol 2011;196:644-650.
3. Thomas DM and Skubitz KM, Giant cell tumour of bone, Curr Opin Oncol 2009; 21:338-344. 4. Yamagunchi T, Iwata J, Sughihara S et al, Distinguishing benign notochordal cell tumors from
vertebral chordoma, Skeletal Radiol 2008; 37:291-299. 5. Scheutze S, Utility of positron emission tomography in sarcomas, Curr Opin Oncol 2006; 18:369-
373. 6.2. Van den Abbeele AD, The Lessons of GIST-PET and PET/CT: A New Paradigm for Imaging,
Oncologist 2008; 13:8-13. 7. Folpe AL, Lyles RH, Sprouse JT, Conrad EU III, and Eary JF, (F-18) Fluorodeoxyglucose Positron
Emission tomography as a Predictor of pathologic Grade and Other Prognostic Variables in Bone and Soft Tissue Sarcoma, Clin Cancer Res 2000;6:1279-1287.
8.3. Benz MR, Czernin J, Dry SM et al, Quantitative F18-flurodeoxyglucose positron emission tomography accurately characterizes peripheral nerve sheath tumors as malignant or benign, Cancer 2010;116:451-458.
9. Schuetze SM, Rubin BP, Vernon C et al, Use of positron emission tomography in localized extremity soft tissue sarcoma treated with neoadjuvant chemotherapy, Cancer 2005;103:339-348.
10. Schwab JH, Boland PJ, Antonescu C, Bilsky MH, and Healey JH, Spinal Metastases From Myxoid Liposarcoma Warrant Screening With Magnetic Resonance Imaging, Cancer 2007;110:1815-1822.
11. Portera CA Jr, Ho V, Patel SR et al, Alveolar soft part sarcoma: Clinical course and patterns of metastasis in 70 patients treated at a single institution, Cancer 2001;91:585-591.
12. Tateishi U, Hasegawa T, Beppu Y et al, Prognostic Significance of MRI Findings in Patients with Myxoid-Round cell Liposarcoma, AJR Am J Roentgenol 2004; 182:725-731.
13.4. Demetri GD, von Mehren M, Antonescu CR et al, NCCN Task Force report: update on the management of patients with gastrointestinal stromal tumors, J Natl Compr Canc Netw 2010;8:S1-41.
14. Carballo M, Maish MS, Jaroszewski DE, and Holmes CE, Video-assisted thoracic surgery (VATS) as a safe alternative for the resection of pulmonary metastases: a retrospective cohort study, J Cardiothorac Surg 2009; 4:13.
15. Meyers SP, Hirsch WL Jr, Curtin HD et al, Chordomas of the skull base: MR features, AJNR Am J Neuroradiol 1992; 13:1627-1636.
16. Peh WCG, The role of imaging in the staging of bone tumors, Crit Rev Oncol Hematol 1999; 31:147-167.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Soft Tissue Sarcoma. V2. 2016. Available at: www.nccn.org. Accessed June 15, 2016.
5. Cheney MD, Giraud C, Goldberg SI, et al. MRI surveillance following treatment of extremity soft tissue sarcoma. J Surg Oncol. 2014; 109(6):593-596.
6. Peng PD, Hyder O, Mavros MN, et al. Management and recurrence patterns of desmoids tumors: a multi-institutional analysis of 211 patients. Ann Surg Oncol. 2012; 19(13):4036-4042.
7. Surgery Gynecologic Oncology volume 21 3 165-e170 2012 8. Tseng WW, Amini B, Madewell JE. FolowFollow-up of the soft tissue sarcoma patient. J Surg
Oncol. 2015; 111(5):641-645. 9. Grotz TE, Donohue JH. Surveillance strategies for gastrointestinal stromal tumors. J Surg Oncol.
2011; 104(8):921-927. 10. Akram J, wWooler G, Lock-Andersen J. Dermatofibrosarcoma protuberans: clinical series, national
Danish incidence data and suggested guidelines. J Plast Surg Hand Surg. 2014; 48(1):67-73.
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11. Puri A, Gulia A, Hawaldar R, Ranganathan P, Badswe RA. Does intensity of surveillance affect survival after surgery for sarcomas? Results of a randomized noninferiority trial. Clin Orthop Relat Res. 2014; 472(5):1568-1575.
12. Biermann JS, Adkins DR, Aqulnik M, et al. Bone cancer. J Natl Compr Canc Netw. 2013; 11(6):688-723.
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ONCOLOGY IMAGING GUIDELINES
ONC-13~Pancreatic Cancer
ONC-13 Pancreatic Cancer 13.1 Screening Studies for Pancreatic Cancer 91
13.2 Suspected/Diangosis 92
13.3 Initial Workup/Staging 92
13.4 Restaging/Recurrence 93
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ONCOLOGY IMAGING GUIDELINES
ONC-13~Pancreatic Cancer
This guideline refers only to adenocarcinoma of the exocrine pancreas, which accounts for over 90% of pancreatic malignancies.
Endocrine and carcinoid tumors of the pancreas are not included in this guideline; See: ONC-15~Neuroendocrine Cancers and Adrenal Tumors
These guidelines or ONC-14~Upper GI Cancer guidelines may be used for cancer of the Ampulla of Vater, duodenum, or common bile duct.
ONC-13.1 SCREENING STUDIES for Pancreatic Cancer
Indications Imaging Study
Age 40, or ten years earlier than the youngest affected family member, with any of the below risk factors below*
INITIAL/BASELINE: • Endoscopic ultrasound (EUS) • CT Abdomen (CPT®74160) with or without and
with contrast (CPT®74170) or MRI Abdomen without and with contrast (CPT®74183)
FOLLOW-UP: • EUS every year • CT Abdomen (CPT®74160) with or without and
with contrast (CPT®74170) or MRI Abdomen without and with contrast (CPT®74183) annually every 3 years
*Increased risk factors for pancreatic cancer: o Family history of familial cancer syndromes including Peutz-Jeghers Syndrome,
Hereditary Breast and Ovarian Cancer Syndrome, Familial Atypical Multiple Mole-Melanoma Syndrome (FAMMM), Familial Adenomatous Polyposis
o Hereditary pancreatitis o Familial pancreatic cancer (two or more first degree relatives or any combination of 3
or more first/second degree relatives) o Hereditary pancreatic neuroendocrine tumors (Multiple Endocrine Neoplasia Type I
[MEN-1], von Hippel-Lindau disease, neurofibromatosis Type 1, tuberous sclerosis)
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ONC-13.2 SUSPECTED/DIAGNOSIS Indication Imaging Study
For any suspected symptoms only • Ultrasound (CPT®76700 or CPT®76705) Symptoms and abnormal lab(s), or physical exam findings, or abnormal ultrasound/ERCP
• CT Abdomen without and with contrast (CPT®74170)
No resection or biopsy after abdomen CT
• Interval transabdominal ultrasound (CPT®76705) or endoscopic ultrasound (preferred).
Preoperative studies for potentially resectable tumors without confirmed histologic diagnosis
• See ONC-13.3 Initial Workup/Staging
ONC-13.3 INITIAL WORKUP/STAGING Diagnosis Imaging Study
All patients • CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with (CPT®74177) or
without and with contrast or (CPT®74178) • EUS
Preoperative planning or CT insufficient to determine resectability
• MRI Abdomen without and with contrast (CPT®74183)
No evidence of metastatic disease on CT or MRI
• PET/CT (CPT® 78815)
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ONC-13.4 RESTAGING/RECURRENCE Indication Imaging Study
After neoadjuvant chemoradiation and any suspected recurrence
• CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with (CPT®74177) or
without and with contrast (CPT®74178) • CT with contrast of other involved or
symptomatic areas • PET/CT (CPT® 78815) for inconclusive
conventional imaging post chemoradiation (if given as definitive/curative therapy)
Unresectable disease or metastatic disease on chemotherapy
Every 2 cycles of treatment (commonly every 6-8 weeks): • CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with (CPT®74177) or
without and with contrast (CPT®74178) • CT with contrast of other involved or
symptomatic areas Unexplained elevated liver enzymes or inconclusive recent CT abnormality
• MRI Abdomen without and with contrast(CPT®74183)
If complete surgical resection was initial therapy
• See ONC-13.5 for surveillance imaging
ONC-13.5 SURVEILLANCE/FOLLOW UP Indication Imaging Study
All patients Every 3 months for 2 years, then annually: • CT Abdomen/Pelvis with contrast
(CPT®74177) • Chest X-ray
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References 1. Screening for pancreatic cancer: recommendation statement. U.S. Preventive Services Task Force.
Rockville, Maryland. Agency for Healthcare Research and Quality (AHRQ);2004 February. http://www.guideline.gov/summary/summary.aspx?doc_id=4790&nbr=003468&string=screening+AND+pancreatic+AND+cancer.
2. Neoptolemos JP. Does pancreatic cancer run in families? Pancreatic Cancer UK, February 22, 2009. http://www.pancreaticcancer.org.uk/pchereditary.htm.
3. Ann Surg 2005;242(2):235-243 4. Radiology 2006;238;405-422 5. Expert Rev Gastroenterol Hepatol 2009;3(1):89-96 6. Journal of Gastrointestinal Surgery August 2014, Volume 18, Issue 8, pp 1441-1444 7. Al-Hawary MM, Francis IR, Chari ST, Fishman EK et al. Pancreatic ductal adenocarcinoma
radiology reporting template: consensus statement of the Society of Abdominal Radiology and the American Pancreatic Association. Gastroenterology, 2014; 146:291-304.
8. Clin Cancer Res 2001;7(3):738. 9. Annals of Surgical Oncology volume 20 pages 2197-2203 2013 10. Journal of Gastrointestinal Surgery volume 16 pages 121-128 2012 11. Journal of Clinical Oncology volume 31 pages 1130-1133 2013 12. HPB volume 14 pages 365-372 2012 8.13. Annals of Surgical Oncology volume 19 pages 1670-1677 2012
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ONCOLOGY IMAGING GUIDELINES
ONC-14~Upper GI Cancers
ONC-14 Upper GI Cancers
14.1 General Considerations 96
14.2 Hepatocellular Carcinoma (HCC)/Biliary Tumors Suspected/Diagnosis
96
14.3 Hepatocellular Carcinoma (HCC)/Biliary Tumors Initial Workup/Staging
96
14.4 Hepatocellular Carcinoma (HCC)/Biliary Tumors Restaging/Recurrence
97
14.5 Hepatocellular Carcinoma (HCC)/Biliary Tumors Surveillance/Follow-Up
97
14.6 Gastric Cancers Suspected/Diagnosis 86
14.76 Gastric Cancers Initial Workup/Staging 98
14.87 Gastric Cancers Restaging/Recurrence 99
14.98 Gastric Cancers Surveillance/Follow-Up 99
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ONCOLOGY IMAGING GUIDELINES
ONC-14~Upper GI Cancers
ONC-14.1 Hepatocellular Carcinoma (HCC)/Biliary Tumors—General Considerations
o Imaging studies in Liver Transplantation – See: AB-42.4~Transplant in the Abdomen Imaging Guidelines.—this is in HCC/biliary section
o See also AB-26 Cirrhosis and Liver Screening for Hepatocellular Carcinoma
ONC-14.2 HCC and Biliary Tumors—SUSPECTED/DIAGNOSIS o See AB-26 Cirrhosis and Liver Screening for Hepatocellular Carcinoma and
AB-29 Liver Lesion Characterization
Suspected/Diagnosis Imaging Study All, except liver lesion. See AB-29 Liver Lesion Characterization
• Endoscopy, upper GI barium study, chest X-ray, and/or ultrasound (CPT®76700 or CPT®76705)
If above studies are inconclusive or abnormal; or multiple symptoms occur; or liver enzymes continue to rise with 2 consecutive evaluations
• CT Abdomen without and with contrast (CPT®74170)
ONC-14.3 HCC and Biliary Tumors—INITIAL WORKUP/STAGING Diagnosis Imaging Study
All patients • CT Chest with contrast (CPT®71260) One of the following: • CT Abdomen/Pelvis with (CPT®7416077 ) • CT Abdomen/Pelvis withoutAbdomen
without and with contrast (CPT®741708) • MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast
For primary biliary carcinoma (no HCC) if no evidence of metastatic disease by conventional imaging, and determining if patient is a surgical candidate
• PET/CT (CPT® 78815)
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Practice Note: Biopsy not required for hepatocellular carcinoma (HCC). Liver lesion with elevated AFP (>20) is adequate for imaging.
ONC-14.4 HCC and Biliary Tumors—RESTAGING/RECURRENCE Indication Imaging Study
After initial therapy and any suspected recurrence
• CT Abdomen with contrast (CPT®74160), CT Abdomen without and with contrast (CPT®74170), or MRI Abdomen without and with contrast (CPT®74183)
• CT Chest with contrast (CPT®71260) for known disease or new signs/symptoms
New liver lesion(s) and primary site controlled
• CT Abdomen (CPT®74170 ) or MRI Abdomen without and with contrast (CPT®74183)
• CT Chest with contrast (CPT®71260) Restaging: HCC treated with embolization
See ONC-31.2 for imaging time frames
ONC-14.5 HCC and Biliary Tumors—SURVEILLANCE/FOLLOW UP Indication Imaging Study
Hepatocellular Carcinomas – post surgical resection (for HCC primarily treated with embolization see (Onc-31.2)Onc-30.2)
One of the following, every 3 months for 2 years, then annually: • CT Abdomen with contrast (CPT®74160) • CT Abdomen without and with contrast
(CPT®74170) • MRI Abdomen without and with contrast
(CPT®74183) Biliary Tract • CT Abdomen with contrast (CPT®74160)
every 6 months for 2 years, then annually If unable to perform CT (due to contrast allergy or renal insufficiency)
• MRI Abdomen without and with contrast (CPT®74183)
References 1. Bridgewater J, Galle PR, Khan SA, et al. Guidelines for the diagnosis and management of intrahepatic cholangiocarcinoma. J Hepatol. 2014; 60(6):1268-1289. 2. Khan SA, Davidson BR, Goldin RD, et al. Guidelines for the diagnosis and treatment of cholangiocarcinoma: an update. Gut. 2012; 61(12):1657-1669. 3. Benson AB 3rd, D’Angelica MI, Abrams TA, et al. Hepatobiliary cancers, version 2.2014. J Natl Compr Canc Netw. 2014; 12(8):1152-1182.
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National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Hepatobiliary Cancers. V1. 2016. Available at: www.nccn.org. Accessed June 15, 2016. ONC-14.6 GASTRIC CANCERS—SUSPECTED/DIAGNOSIS Suspected/Diagnosis Imaging Study All, except liver lesion. See AB-29 Liver Lesion Characterization
• Endoscopy, upper GI barium study, chest X-ray, and/or abdominal ultrasound (CPT®76700 or CPT®76705)
If above studies are inconclusive or abnormal or multiple symptoms occur; or liver enzymes continue to rise with 2 consecutive evaluations
• CT Abdomen without and with contrast (CPT®74170)
ONC-14.7 6 GASTRIC CANCERS—INITIAL WORKUP/STAGING Diagnosis Imaging Study
All patients • CT Chest with contrast (CPT®71260) One of the following: • CT Abdomen/Pelvis with contrast
(CPT®74177 ) • CT Abdomen/Pelvis without and with
contrast (CPT®74178) • Gastric cancer ≥ T2 or higher with
no metastatic disease by conventional imaging
• PET/CT (CPT® 78815)
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ONC-14.8 7 GASTRIC CANCERS—RESTAGING/RECURRENCE Indication Imaging Study
After initial therapy and any suspected recurrence
• CT Abdomen with contrast (CPT®74160), CT Abdomen without and with contrast (CPT®74170), or MRI Abdomen without and with contrast (CPT®74183)
• CT Chest with contrast (CPT®71260) for known disease or new signs/symptoms
New liver lesion(s) and primary site controlled
• CT Abdomen (CPT®74170) or MRI Abdomen without and with contrast (CPT®74183)
• CT Chest with contrast (CPT®71260)
Gastric cancer after neoadjuvant therapy for presumed surgically resectable disease or post curative chemoradiation being treated without surgery
• CT Chest (CPT®71260 ) and Abdomen/Pelvis with contrast (CPT®74177)
Inconclusive findings on conventional imaging
• PET/CT (CPT® 78815)
ONC-14.9 8 GASTRIC CANCERS—SURVEILLANCE/FOLLOW UP Indication Imaging Study
All patients • No routine imaging unless clinical signs/symptoms of recurrence
References 1. Petrowsky H, Wildbrett P, Husanik DB et al, Impact of integrated positron emission tomography and
computed tomography on staging and management of gallbladder cancer and cholangiocarcinoma, J Hepatol 2006;45:43-50.
1. Vallböhmer D, Hölscher AH, Schnieder PM et al, [18F]-fluorodeoxyglucose-positron emission tomography for the assessment of histopathologic response and prognosis after completion of neoadjuvant chemotherapy in gastric cancer. J Surg Oncol. 2010;102:135-140.
2. Zou H, Zhao Y. 18FDG PET-CT for detecting gastric cancer recurrence after surgical resection: a meta-analysis. Surg Oncol. 2013; 22(3):162-166.
3. Worhunsky DJ, Ma Y, Zak Y, et al. Compliance with gastric cancer guidelines is associated with improved outcomes. J Natl Compr Canc Netw. 2015; 13(3):319-325.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Gastric Cancer. V1. 2016. Available at: www.nccn.org. Accessed June 15, 2016.
2.
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ONCOLOGY IMAGING GUIDELINES
ONC-15~Neuroendocrine Cancers and Adrenal Tumors
ONC-15 Neuroendocrine Cancers and Adrenal Tumors
15.1 General Considerations 101
15.2 Gastrointestinal/Pancreatic Neuroendocrine Cancers Suspected/Diagnosis
102
15.3 Gastrointestinal/Pancreatic Neuroendocrine Cancers Initial Workup/Staging
103
15.4 Gastrointestinal/Pancreatic Neuroendocrine Cancers Restaging/Recurrence
104
15.5 Gastrointestinal/Pancreatic Neuroendocrine Cancers Surveillance/Follow-Up
104
15.6 Adrenal Tumors Suspected/Diagnosis 105
15.7 Adrenal Tumors Initial Workup/Staging 105
15.8 Adrenal Tumors Restaging/Recurrence 106
15.9 Adrenal Tumors Surveillance/Follow-Up 107
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ONCOLOGY IMAGING GUIDELINES
ONC-15~Neuroendocrine Cancers and Adrenal Tumors
ONC-15.1 GENERAL CONSIDERATIONS o This guideline includes carcinoid and endocrine tumors of the pancreas such as
insulinoma, glucagonoma, VIPoma, gastrinoma, and others as well as catecholamine-secreting tumors of the adrenal such as pheochromocytoma, paraganglioma, adrenocortical carcinoma, and others.
o Neuroblastoma, ganglioneuroblastoma, and ganglioneuroma occurring in adults should be imaged according to PEDONC-6~Neuroblastoma
o Also see AB-15~Zollinger-Ellison Syndrome in the Abdomen Imaging Guidelines
o Many are associated with Multiple Endocrine Neoplasia (MEN) familial syndromes. – link toSee PEDONC-2.8 Multiple Endocrine Neoplasias (MEN) for screening recommendations; put in both sections
o Gastrointestinal/pancreatic neuroendocrine tumors encompass a broad range of
tumors including, but not limited to: carcinoid; nonfunctioning pancreatic tumors and functioning pancreatic tumors (carcinoid; gastrinoma; insulinoma; glucagonoma; VIPoma; somatostatinoma)
o For neuroendocrine tumor of unknown primary follow guidelines for in ONC-31.7 Carcinoma of unknown Unknown primary Primary Site(ONC-31.7)
o o For high grade neuroendocrine tumors of either GI/pancreatic primary or unknown
primary origin refer to ONC-31.8 eExtrathoracic small Small cell Cell carcinoma Carcinoma(ONC-31.8)
o For primary lung or thymus carcinoid tumors refer to small cell lung cancer guidelines (ONC-7-Small Cell Lung Cancer)
o Octreotide scintigraphy uses the somatostatin analog [111In-DTPA]-octreotide and some references refer to this study as a somatostatin scintigraphy study
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ONC-15.2 GASTROINTESTINAL/PANCREATIC NEUROENDOCRINE CANCERS—SUSPECTED/DIAGNOSIS
Indication Imaging Study • Systemic symptoms
strongly suggestive of functioning neuroendocrine tumor
• Suspicious findings on other imaging studies
• Unexplained elevation in any of the following:
o Chromogranin A o 5HIAA o Insulin o VIP o Glucagon o Gastrin o Substance P o Serotonin o Somatostatin
Any or all of the following: • Octreotide scan (CPT®78800, 78801, 78802,
78803, or 78804) • CT Abdomen/Pelvis with contrast (CPT®74177) or
without and with contrast (CPT®74178) o If CT inconclusive, MRI Abdomen
(CPT®74183) and Pelvis (CPT®72197) without and with contrast is indicated
• CT Chest with contrast (CPT® 71260) or CXR
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ONC-15.3 GASTROINTESTINAL/PANCREATIC NEUROENDOCRINE CANCERS—INITIAL WORKUP/STAGING
Indication Imaging Study Carcinoid, pancreatic endocrine tumors
If not already done: • Octreotide scan (CPT®78800, 78801, 78802, 78803,
or 78804) • CT Abdomen/Pelvis with contrast (CPT®74177) or
without and with contrast (CPT®74178) o If CT inconclusive, MRI Abdomen
(CPT®74183) and Pelvis (CPT®72197) without and with contrast is indicated
• CT Chest with contrast (CPT® 71260) • See: ONC-7-Small Cell Lung Cancer for thoracic
carcinoid or neuroendocrine tumors Poorly differentiated, undifferentiated or features of small cell carcinoma (high grade neuroendocrine tumors)
If not already done: • Octreotide scan (CPT®78800, 78801, 78802, 78803,
or 78804) • CT Abdomen/Pelvis with contrast (CPT®74177) or
without and with contrast (CPT®74178) o If CT inconclusive, MRI Abdomen
(CPT®74183) and Pelvis (CPT®72197) without and with contrast is indicated
• Brain MRI (CPT®70553); • See ONC-31.8 - Extrathoracic Small Cell Lung
Cancer All, after complete resection fails to resolve secretion of pathologic levels of hormones or neurotransmitter compounds, and nuclear imaging (MIBG, Octreotide, or Somatostatin scintigraphy) is negative
• PET/CT (CPT® 78815)
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ONC-15.4 GASTROINTESTINAL/PANCREATIC NEUROENDOCRINE CANCERS—RESTAGING/RECURRENCE
Indication Imaging Study All after surgical resection • See: Surveillance After chemo for unresectable/inoperable
• Imaging modality positive prior to therapy
Progression of symptoms, elevation of tumor markers
• Octreotide scan (one of CPT® 78075, 78800, 78801, 78802, 78803, or 78804)
• CT Chest without (CPT®71250) or with contrast (CPT®71260)
One of the following: • CT Abdomen/Pelvis with contrast (CPT®74177) • CT Abdomen/Pelvis without and with contrast
(CPT®74178) • MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast ONC-15.5 GASTROINTESTINAL/PANCREATIC NEUROENDOCRINE CANCERS—SURVEILLANCE
Indication Imaging Study Neuroendocrine tumors of the bowel (small/large)
• CT Abdomen/Pelvis (CPT®74177) once at 3-12 months to 1 year postoperatively
• CT Abdomen/Pelvis (CPT®74177) annually for 10 years can be considered
Neuroendocrine tumors of the upper abdomen (i.e., pancreas, stomach)
• CT Abdomen (CPT®74160) once at 3-12 months to 1 year postoperatively
• CT abdomen (CPT®74160) annually for 10 years Extrathoracic large cell neuroendocrine cancer
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast every 3 months for 1 year then every 6 months for 4 additional years
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ONC-15.6 ADRENAL TUMORS—SUSPECTED/DIAGNOSIS See AB-16~Adrenal Cortical Lesions for imaging guidelines for evaluation of
suspected adrenal malignancies
Indication Imaging Study • Presence of abnormal lab values
(metanephrines, serum/urine dopamine or methoxytyramine);
• Suspicious findings on other imaging studies
• MIBG or Octreotide scan (one of CPT® 78075, 78800, 78801, 78802, 78803, or 78804)
One of the following: • CT Abdomen/Pelvis with contrast (CPT®74177) • CT Abdomen/Pelvis without and with contrast
(CPT®74178) • MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast Practice note: If concern for genetic predisposition syndrome such as MEN, neurofibromatosis, or von Hippel-Lindau disease, see screening recommendations in PEDONC-2.
ONC-15.7 ADRENAL TUMORS—INITIAL WORKUP/STAGING Indication Imaging Study
• Pheochromocytoma • Paraganglioma • Paraganglioneuroma • Adrenocortical carcinoma
If not already done: • MIBG or Octreotide scan (one of CPT® 78075,
78800, 78801, 78802, 78803, or 78804) • CT Chest without (CPT®71250) or with contrast
(CPT®71260)
One of the following (if not already done): • CT Abdomen/Pelvis with contrast (CPT®74177) • CT Abdomen/Pelvis without and with contrast
(CPT®74178) • MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast
• PET can be approved when all other imaging is inconclusive and PET findings will direct immediate patient care decisions
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ONC-15.8 ADRENAL TUMORS—RESTAGING/RECURRENCE Indication Imaging Study
If surgery is primary therapy • CT Abdomen (CPT®74160) one time within first year post resection then go to surveillance recommendations
Restaging • CT Chest without (CPT®71250) or with contrast (CPT®71260)
One of the following: • CT Abdomen with contrast (CPT®74160) or without
and with contrast (CPT®74170) • MRI Abdomen without and with contrast
(CPT®74183) • Pelvis imaging is indicated if signs and/or symptoms
are present or there is history of prior disease Recurrence, progression of symptoms, or elevation of tumor markers
• MIBG or Octreotide scan (one of CPT® 78075, 78800, 78801, 78802, 78803, or 78804)
• CT Chest without (CPT®71250) or with contrast (CPT®71260)
One of the following: • CT Abdomen/Pelvis with contrast (CPT®74177) • CT Abdomen/Pelvis without and with contrast
(CPT®74178) • MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast
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ONC-15.9 ADRENAL TUMORS—SURVEILLANCE Indication Imaging Study
All patients • CT Abdomen (CPT®74160) and other involved body areas with contrast annually for 10 years
References 1. Ilias I and Pacak K, Anatomic and Functional Imaging of Metastatic Pheochromocytoma, Ann NY
Acad Sci 2004; 1018:495-504. 2.1. Northop JA and Lee JH, Large bowel carcinoid tumors, Curr Opin Gastroenterol
Gastroenterol.2007; 23:74-78. 2. Qadan M, Ma Y, Visser BC et al, Reassessment of the Current American Join Committee on Cancer
Staging System for Pancreatic Neuroendocrine Tumors, J Am Coll Surg 3. 2014;218:188-195. 4. Brandi ML, Gagel RF, Angeli A et al, Consensus Guidelines for Diagnosis and Therapy of MEN
Type 1 and Type 2, J Clin Endocrinol Metab 2001;86:5658-5671. 5. Ng L and Libertino JM, Adrenocortical Carcinoma: Diagnosis, Evaluation and Treatment, J Urol
2003; 169:5-11. 4. Lenders JWM, Duh Q-Y, Eisenhofer G et al, Pheochromocytoma and Paraganglioma: An Endocrine
Society Clinical Practice Guideline, J Clin Endocrinol Metab 2014;99:1915-1942. National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology.
Neuroendocrine Tumors. V2. 2016. Available at: www.nccn.org. Accessed June 15, 2016. National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology.
Hepatobiliary Cancers. V1. 2016. Available at: www.nccn.org. Accessed June 15, 2016. 5. Ruys AT, Bennink RJ, van Westreenen HL, et al. FDG-positron emission tomography/computed
tomography and standardized uptake value in the primary diagnosis and staging of hilar cholangiocarcinoma. HPB (Oxford). 2011; 13(4):256-262.
6. Surgery Gynecology Oncology volume 20 pages e10-e17 2011 7. Ter-Minassian M, Chan JA, Hooshmand SM, et al. Clinical presentation, recurrence, and survival in
patients with neuroendocrine tumors: results from a prospective institutional database. Endocr Relat Cancer. 2013; 20(2):187-196.
8. Murray SE, Lloyd RV, Sikppel RS, Chen H, Oltmann SC. Postoperative surveillance of small appendiceal carcinoid tumors. Am J Surg. 2014; 207(3):342-345.
9. Kim SJ, Kim JW, Oh DY, et al. Clinical course of neuroendocrine tumors with different origins (the pancreas, gastrointestinal tract, and lung). Am J Clin Oncol. 2012; 35(6):549-556.
10. Strosberg JR, Cheema A, Weber JM, et al. Relapse-free survival in patients with nonmetastatic, surgically resected pancreatic neuroendocrine tumors: an analysis of the AJCC and ENETS staging classifications. Ann Surg. 2012; 256(2):321-325.
6.11. Thakker RV, Newey PJ, Walls GV, et al. Clinical practice guidelines for multiple endocrine neoplasia type 1 (MEN1). J Clin EndoscrinolEndocrinol Metab. 2012; 97(9):2990-3011.
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ONCOLOGY IMAGING GUIDELINES
ONC-16~COLORECTAL CANCER
ONC-16 Colorectal Cancer 16.1 Suspected/Diagnosis 109
16.2 Initial Work-Up/Staging 109
16.3 Restaging/Recurrence 110
16.4 Surveillance/Follow Up 111
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ONCOLOGY IMAGING GUIDELINES
ONC-16~COLORECTAL CANCER
o Duodenal and sSmall bowel adenocarcinomacancer follows imaging guidelines for colorectal cancer.
o Neuroendocrine tumors of the small bowel are covered in: ONC-15. o Appendiceal adenocarcinoma (including pseudomyxoma peritonei) follows imaging guidelines for colorectal cancer
ONC-16.1 SUSPECTED/DIAGNOSIS See AB-22~GI Bleeding or AB-25~CT Colonography (CTC) for imaging
guidelines for evaluation of suspected colorectal malignancies
Indication Imaging Study
Colonoscopy/Upper endoscopy and/or barium enema/upper GI (with or without biopsy) suspicion
• CT Abdomen/Pelvis with contrast (CPT®74177)
Differentiate between rectal (adenocarcinoma) and anal (squamous cell or basaloid carcinomas)
See: ONC-24 Anal Cancer, Vaginal Cancer, and Cancers of the External Genitalia
ONC-16.2 INITIAL WORK-UP/STAGING Indication Imaging Study
Carcinoma within a polyp that is completely removed
• No advanced imaging needed
Invasive adenocarcinoma • CT Chest (CPT® 71260) and Abdomen/Pelvis (CPT®74177) with contrast
Further evaluation of an inconclusive liver lesion seen on CT
• MRI Abdomen without and with contrast (CPT®74183)
Any one of the following: • Isolated metastatic lesion(s) on other
imaging and patient is a candidate for aggressive surgical resection, or other localized treatment to metastasis for curative intent.
• Inconclusive conventional
• PET/CT (CPT® 78815)
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imagingCT contrast contraindicatedInconclusive conventional imaging
Rectal adenocarcinoma In addition to above, for preoperative planning: • Endorectal ultrasound (CPT®76872) • MRI Pelvis without and with contrast
(CPT®72197) ONC-16.3 RESTAGING/RECURRENCE
Indication Imaging Study Complete resection • See Surveillance Recurrence suspected • CT Chest (CPT® 71260) and Abdomen/Pelvis
(CPT®74177) with contrast After completion of planned neoadjuvant therapy
Patients with metastatic disease: • CT Chest (CPT® 71260) and Abdomen/Pelvis
(CPT®74177) with contrast Patients without metastatic disease, when requested by operating surgeon for operative planning: • CT with contrast or MRI without and with
contrast of all operative sites
All other patients: • No advanced imaging since surgery is “planned”
Unresected primaryable disease or metastatic disease on chemotherapy
Every 2 cycles of chemotherapy treatment and at the completedcompletion of to combined chemotherapy and radiation treatmentchemoradiotherapy (commonly every 6-8 weeks): • CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with contrast (CPT®74177) • CT with contrast of other involved or
symptomatic areas Any one of the following: • Further evaluation of an
inconclusive liver lesion seen on CT
• Postoperative elevated or rising CEA or LFTs with negative recent conventional
• MRI Abdomen without and with contrast (CPT®74183)
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imaging
Any one of the following: • Postoperative elevated or
rising CEA or LFTs with negative recent conventional imaging
• Isolated metastatic lesion(s) on other imaging and patient is a candidate for aggressive surgical resection or other localized treatment to metastasis for curative intent
• Differentiate local tumor recurrence from postoperative and/or post-radiation scarring
• PET/CT (CPT® 78815)
New or worsening pelvic pain and recent CT imaging negative or inconclusive
• MRI Pelvis without and with contrast (CPT®72197)
ONC-16.4 SURVEILLANCE/FOLLOW UP
Indication Imaging/Lab Study Stage I and standard risk Stage II • No routine advanced imaging indicated
Any one of the following: • Lymph node positive colon cancer • Perforation or obstruction at
diagnosis • Inadequate lymph node evaluation
(<12 nodes examined) at diagnosis
• CT Chest (CPT® 71260) and Abdomen/Pelvis (CPT®74177) with contrast annually for 5 years
All rectal adenocarcinoma • CT Chest (CPT® 71260) and
Abdomen/Pelvis (CPT® 74177) with contrast every 6 months for 2 years then annually for 3 additional years
Metastatic disease (post resection of all disease or being observed off therapy)
• CT Chest (CPT® 71260) and Abdomen/Pelvis (CPT®74177) every 3 months for first year, then every 6 months for 4 more years
Pseudomyxoma peritonei One of each of the following, every 3 months for first year, then every 6 months for 4 more
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years: • CT Chest with (CPT® 71260) or without
contrast(CPT® 71250) • CT Abdomen/Pelvis with contrast (CPT®
74177) or MRI Abdomen (CPT® 74183) and Pelvis (CPT® 72197) without and with contrast
References 1. Fujita S, Shimoda T, Yoshimura K et al, Prospective evaluation of prognostic factors in patient with
colorectal cancer undergoing curative resection, J Surg Oncol 2003;84:127-131. 2. Leibig C, Ayala G, Wilks J et al, Perineural Invasion is an Independent Predictor of Outcome in
Colorectal Cancer, J Clin Oncol 2009;27:5131-5137. 3. Quah H-M, Chou J, Gonen M et al, Identification of patients with High-Risk Stage II Colon Cancer
for Adjuvant Therapy, Dis Colon Rectum 2008;51:503-507. 4.1. Dewhurst C, Rosen MP, Blake MA et al, Pretreatment Staging of Colorectal Cancer, ACR
Appropriateness Criteria® 2011;1-9. 5. Scott AM, Gunawardana DH, Kelley B et al, PET Changes Management and Improves Prognostic
Stratification in Patients with Recurrent Colorectal Cancer: Results of a Multicenter Prospective Study, J Nucl Med 2008;49:1451-1457.
6.2. Moulton C-A, Gu C-S, Law CH et al, Effect of PET before liver resection on surgical management for colorectal adenocarcinoma metastases, JAMA 2014;311:1863-1869.
3. Bailey CE, Hu C-Y, You YN et al, Variation in Positron Emission Tomography Use After Colon Cancer Resection, J Oncol Pract 2015;11:e363-e372.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Colon Cancer. V2. 2016. Available at: www.nccn.org. Accessed June 16, 2016.
4. Health Technology Assessments volume 35 pages 1-1192 2011 5. International Journal of Colorectal Diseases volume 28 pages 1033-1047 2013 6. Lu YY, Chen JH, Ding HJ, et al. A systematic review and meta-analysis of pretherapeutic lymph
node staging of colorectal cancer by 18F-FDG PET or PET/CT. Nucl Med commun. 2012; 33(11):1127-1133.
7. Moulton CA, Gu CS, Law CH, et al. Effect of PET before liver resection on surgical management for colorectal adenocarcinoma metastases: a randomized clinical trial. JAMA. 2014; 311(18):1863-1869.
8. Steele SR, Chang GJ, Hendren S, et al. Practice guideline for the surveillance of patients after curative treatment of colon and rectal cancer. Dis Colon Rectum. 2015; 58(8):713-725. Clinical Colorectal Cancer volume 28 pages 262-270 2015
7.9. Van de Velde CJ, Boelens PG, Borras JM, et al. EURECCA colorectal: multidisciplinary management: European concensus conference colon & rectum. Eur J Cancer. 2014; 50(1):e1-e34.
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ONCOLOGY IMAGING GUIDELINES
ONC-17~RENAL CELL CANCER (RCC)
ONC-17 Renal Cell Cancer (RCC) 17.1 Suspected/Diagnosis 114
17.2 Initial Workup/Staging 114
17.3 Restaging/Recurrence 115
17.4 Surveillance 115
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ONCOLOGY IMAGING GUIDELINES
ONC-17~RENAL CELL CANCER (RCC)
Practice Note: PET is not routinely indicated for initial diagnosis, staging or restaging of renal cell cancer. Data is lacking on improvements in outcomes of renal cell cancer survivors based upon imaging schedules.
A minority of adult patients with renal cell cancer (RCC) will have translocations in TFE3 or TFEB, which have a different natural history than “adult type” RCC. Patients of any age with TFE3 or TFEB translocated RCC should be imaged according to guidelines in PEDONC-7.4 Pediatric Renal Cell Carcinoma (RCC).
Patients of any age with Wilms Tumor should be imaged according to guidelines in section PEDONC-7.2 Unilateral Wilms Tumor or PEDONC-7.3 Bilateral Wilms Tumor
ONC-17.1 SUSPECTED/DIAGNOSIS See AB-35 Indeterminate Renal Lesion for imaging guidelines for evaluation of
suspected renal malignancies
Indication Imaging Study Solid kidney mass on imaging (see AB-35)or biopsy proven Renal Cell Carcinoma (RCC) For biopsy-proven Transitional Cell, See: ONC-18 Transitional Cell Cancer
• CT Chest with contrast (CPT®71260) or without contrast (CPT®71250) • CT Abdomen/Pelvis, contrast as requested
Extension of tumor into the vena cava by other imaging
• MRI Abdomen (CPT®74183) without and with contrast
ONC-17.2 INITIAL WORKUP/STAGING
Indication Imaging Study All patients If not done previously:
• CT Chest with (CPT®71260) or without contrast (CPT®71250)
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• CT Abdomen/Pelvis, contrast as requested Any of the following: • Extension of tumor into the vena
cava by other imaging • Inconclusive findings on CT
• MRI Abdomen without and with contrast (CPT®74183)
Bone pain • Bone scan (See ONC-1.3) Any of the following: • Signs/symptoms of brain metastases • IL-2 therapy being considered
• MRI Brain without and with contrast (CPT® 70553)
ONC-17.3 RESTAGING/RECURRENCE
Indication Imaging Study Unresectable disease or metastatic disease on chemotherapy
Every 2 cycles of treatment (commonly every 6-8 weeks): • CT Chest with contrast (CPT®71260) • CT Abdomen/Pelvis with contrast
(CPT®7417760)) o• Replace CPT®74160 above with CT
Abdomen/Pelvis with contrast (CPT®74177) if known or suspected pelvic involvement
• CT with contrast of other involved or symptomatic areas
Recurrence suspected • CT Chest (CPT®71260) and CT Abdomen/Pelvis with contrast (CPT®74177)60)
o• Replace CPT®74160 above with CT Abdomen/Pelvis with contrast (CPT®74177) if known or suspected pelvic involvement
ONC-17.4 SURVEILLANCE Indication Imaging Study
Stage I Disease, active surveillance One of the following, once within 6 months of surveillance initiation: • CT Abdomen with (CPT®74160) or without
and with contrast (CPT®74170) • MRI (CPT®74183) Abdomen without and with
contrast
Annually for 5 years: • Chest x-ray
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• Abdominal ultrasound (CPT®76770 or 76775) • CT Chest with (CPT®71260) or without
contrast (CPT®71250) is indicated for any of the following:
o New or worsening thoracic symptoms o New or worsening CXR findings o Pulmonary nodule on prior CT Chest,
see CH-16.1 Solitary Pulmonary Nodule for imaging guidelines
• CT (CPT®74170) or MRI (CPT®74183) Abdomen without and with contrast is indicated for any of the following:
o New or worsening abdominal symptoms o New or worsening US findings o Suspicious abnormality on post-
operative CT
Stage I or II Disease, post-ablation therapy
One of each of the following, 3-6 months post-ablation: • CT Chest with (CPT®71260) or without
contrast (CPT®71250) • CT (CPT®74170) or MRI (CPT®74183)
Abdomen without and with contrast
Annually for 5 years: • Chest x-ray
o CT Chest with contrast (CPT®71260) or without contrast (CPT®71250) is indicated for new or worsening thoracic symptoms or CXR findings
• CT (CPT®74170) or MRI (CPT®74183) Abdomen without and with contrast
Stage I Disease, after partial or complete nephrectomy
One of each of the following, 3-12 months post-resection: CT Chest with (CPT®71260) or without
contrast (CPT®71250) • • CT Abdomen contrast as requested.
with (CPT®74160) or without contrast
(CPT®74150)
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Annually for 3 years:
• Chest x-ray • Abdominal ultrasound (CPT®76770 or 76775) • CT Chest with (CPT®71260) or without
contrast (CPT®71250) is indicated for any of the following:
o New or worsening thoracic symptoms o New or worsening CXR findings o Pulmonary nodule on prior CT Chest,
see CH-16.1 Solitary Pulmonary Nodule for imaging guidelines
• CT (CPT®74170) or MRI (CPT®74183) Abdomen without and with contrast is indicated for any of the following:
o New or worsening abdominal symptoms o New or worsening US findings o Suspicious abnormality on post-
operative CT
Stage II Disease, post-nephrectomy One of each of the following, 3-6 months post-resection: • CT Chest with (CPT®71260) or without
contrast (CPT®71250) • CT Abdomen with (CPT®74160) or without
contrast (CPT®74150)
One of each of the following, every 6 months for 3 years, then annually to year 5: • Chest x-ray • Abdominal ultrasound (CPT®76770 or 76775) • CT Chest with (CPT®71260) or without
contrast (CPT®71250) is indicated for any of the following:
o New or worsening thoracic symptoms o New or worsening CXR findings o Pulmonary nodule on prior CT Chest,
see CH-16.1 Solitary Pulmonary Nodule for imaging guidelines
• CT (CPT®74170) or MRI (CPT®74183) Abdomen without and with contrast is indicated for any of the following:
o New or worsening abdominal symptoms o New or worsening US findings
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o Suspicious abnormality on post-operative CT
Any of the following: • Stage III Disease, post-
nephrectomy • Stage IV Disease, not receiving
therapy, no measurable disease
One of each of the following, 3-6 months post-resection: • CT Chest with (CPT®71260) or without
contrast (CPT®71250) • CT Abdomen with (CPT®74160) or without
contrast (CPT®74150)
One of each of the following, every 3 months for 3 years, then annually to year 5: • CT Chest with (CPT®71260) or without
contrast (CPT®71250) • CT Abdomen with (CPT®74160) or without
contrast (CPT®74150)
Metastatic disease on a break from therapy with persistent measurable disease
Any or all of the following, every 3 months: • CT Chest (CPT®71260) and Abdomen/Pelvis
(CPT®74177) with contrast • CT with contrast of other involved or
symptomatic areas
Practice Note: Surveillance imaging for renal cell cancer is controversial and data is lacking on the magnitude of clinical benefit. Given results of the currently available peer-reviewed literature, the above surveillance imaging recommendations are clinically appropriate.
References
1. Skolarikos A, Alivizatos G, Laguna P, and de la Rosette J, A Review on Follow-Up Strategies for Renal Cell Carcinoma after Nephrectomy, Eur Urol 2007;51:1490-1501.
2.1. Donat SM, Diaz M, Bishoff JT et al, Follow-Up For Clinically Localized Renal Neoplasms: AUA Guideline, ©2013 American Urological Association.
3.2. Davenport MS, Caoili EM, Cohan RH et al, MRI and CT Characteristics of Successfully Ablated Renal Masses: Imaging Surveillance After Radiofrequency Ablation, AJR Am J Roentgenol 2009;192:1571-1578.
4.3. Bensalah K, Zeltser I, Tuncel A et al, Evaluation of costs and morbidity associated with laparoscopic radiofrequency ablation and laparoscopic partial nephrectomy for treating small renal tumours, BJU Int 2008;101:467-471.
5.4. Clark TWI, Millward SF, Gervais DA et al, Reporting Standards for Percutaneous Thermal Ablation of Renal Cell Carcinoma, J Vasc Interv Radiol 2009;20:S409-S416.
6. Seaman E, Goluboff ET, Ross S, and Sawczuk IS, Association of radionuclide bone scan and serum alkaline phosphatase in patients with metastatic renal cell carcinoma, Urology 1996;48:692-695.
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5. Rais-Bahrami S, Guzzo TJ, Jarrett TW, Kavoussi, and Allaf ME, Incidentally discovered renal masses: oncological and perioperative outcome sin patients with delayed surgical intervention, BJU Int 2009;103:1355-1358.
6. Wang HY, Ding HJ, Chen JH, et al. Meta-analysis of the diagnostic performance of [18F]FDG-PET and PET/CT in renal cell carcinoma. Cancer Imaging. 2012; 12:464-474.
7. Kim EH, Strope SA. Postoperative surveillance imaging for patients undergoing nephrectomy for renal cell carcinoma. Urol Oncol. 2015; 33(12):499-502.
8. Sankineni S, Brown A, Cieciera M, Choyke PL, Turkbey B. Imaging of renal cell carcinoma. Urol Oncol. 2016; 34(3):147-155.
9. Vikram R, Beland MD, Blaufox MD et al, Renal Cell Carcinoma Staging, ACR Appropriateness Criteria® 2015, 1-10. 7.
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ONCOLOGY IMAGING GUIDELINES
ONC-18~TRANSITIONAL CELL CANCER
ONC-18 Transitional Cell Cancer 18.1 Suspected/Diagnosis 121
18.2 Initial Workup/Staging 121
18.3 Restaging/Recurrence 122
18.4 Surveillance 122
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ONCOLOGY IMAGING GUIDELINES
ONC-18~TRANSITIONAL CELL CANCER
PET is considered in urothelial (transitional cell) tumors only for indications noted in: ONC-18.2
Transitional cell cancers can include: tumors of the bladder, ureters, prostate, urethra, or renal pelvis. For primary cancer of the kidney see ONC-17~Renal Cell Cancer.
Urology consultation for cystoscopy is preferred but not required; however, CT abdomen and pelvis without and with contrast (CPT®74178) can be performed prior to Urology consultation for suspicious clinical situations in accordance with AB-39~Hematuria in the Abdomen Imaging Guidelines.
PET not routinely indicated in transitional cell cancer with exception noted below in: ONC-18.2
ONC-18.1 SUSPECTED/DIAGNOSIS See AB-39~Hematuria for imaging guidelines for evaluation of suspected transitional
cell malignancies
Indication Imaging Study
Any suspicion, including hematuria
• CT Abdomen/Pelvis without and with contrast (CPT®74178) and cystoscopy for biopsy if indicated
ONC-18.2 INITIAL WORKUP/STAGING Indication Imaging Study
Cystoscopy with biopsy reveals non-invasive cancerAll patients
One of the following: • CT Abdomen/Pelvis without contrast with
retrograde pyelogram • CT Abdomen/Pelvis without and with contrast
(CPT®74178) o MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast if contraindication to CT contrast
• CT Abdomen/Pelvis without contrast (CPT®74176) with retrograde pyelogram or Rrenal ultrasound (CPT® 76770 or 76775) in patients who cannot receive either CT or MRI contrast
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Cystoscopy with biopsy reveals muscle Any of the following: • Muscle invasive bladder
cancercarcinoma • Urethral carcinoma • Urothelial carcinoma of the
prostate
• CT Chest without (CPT®71250) or with contrast (CPT®71260)
• If not previously done, CT Abdomen/Pelvis without and with contrast (CPT®74178)
Patients without metastatic disease, when requested by operating surgeon for operative planning:
• CT with contrast or MRI without and with contrast of all operative sites
To determine neoadjuvant therapy versus surgery as initial treatment (if conventional imaging negative or inconclusive)
• PET/CT (CPT® 78815)
ONC-18.3 RESTAGING/RECURRENCE
Indication Imaging Study Any stage > T1 or treated with definitive surgery
• “Baseline” CT Abdomen/Pelvis with contrast (CPT®74177) after surgery if requested
Recurrence suspicion • CT Abdomen/Pelvis with contrast (CPT®74177) or with and without contrast (CPT®74178)
• CT Chest with contrast (CPT®71260) if abnormal chest X-ray or lung nodules seen on other imaging
After neoadjuvant therapy and before resection
• CT Chest with contrast (CPT®71260) and CT urogram (CPT®74178)
Monitoring therapy for metastatic disease
Every 2 cycles of therapy: • CT Abdomen/Pelvis with contrast
(CPT®74177) • CT Chest with contrast (CPT®71260) if
prior involvement or abnormal chest X-ray
ONC-18.4 SURVEILLANCE Indication Imaging Study
Superficial and minimally invasive (Tis and T1) transitional cell carcinoma of the bladder or upper tracts
• CT urogram (CPT®74178) every 2 years for high grade lesions
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Any other muscle invasive lower and upper genitourinary tumors
• CT Abdomen/Pelvis with contrast (CPT®74177) or without and with contrast (CPT®74178) every 3 months for 2 years
Urethral cancers (all types ) T1 or greater
• CT Abdomen /Pelvis with contrast (CPT® 74177) or MRI aAbdomen (CPT®74183) and Pelvis (CPT® 72197) without and without contrast every 3 months for 2 years and then annually.
References 1. Verma S, Rajesh A, Prasad SR et al, Urinary bladder cancer: role of MR imaging, Radiographics
2012;32:371-387. National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology.
Bladder Cancer. V1. 2016. Available at: www.nccn.org. Accessed June 16, 2016. 2. Lu YY, Chen JH, Liang JA, et al. Clinical value of FDG PET or PET/CT in urinary bladder cancer:
a systematic review and meta-analysis. Eur J Radiol. 2012; 81(9):2411-2416. 3. Witjes JA, Comperat E, Cowan NC, et al. EAU guidelines on muscle-invasive and metastatic
bladder cancer: summary of the 2013 guidelines. Eur Urol. 2014; 65(4):778-792. 4. Gakis G, Witjes JA, Comperat E, et al. EAU guidelines on primary urethral carcinoma. Eur Urol.
2013; 64(5):823-830. 5. Roupret M, Babjuk M, Comperat E, et al. European guidelines on upper tract urothelial carcinomas:
2013 update. Eur Urol. 2013; 63(6):1059-1071.
1. 2. Grossman HB, Natale RB, Tangen CM et al, Neoadjuvant chemotherapy plus cystectomy compared
with cystectomy alone for locally advanced bladder cancer, N Engl J Med 2003; 349:859-866. 3. Sherif A, Holmberg L, Rintala E et al, Neoadjuvant cisplatinum based combination chemotherapy in
patients with invasive bladder cancer: a combined analysis of two Nordic studies, Eur Urol 2004; 45:297-303.
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ONCOLOGY IMAGING GUIDELINES
ONC-19~PROSTATE CANCER
ONC-19 Prostate Cancer 19.1 Susepected/Diagnosis 126
19.2 Initial Workup/Staging 128
19.3 Restaging/Recurrence 129
19.4 Surveillance/Follow Up 130
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ONCOLOGY IMAGING GUIDELINES
ONC-19~PROSTATE CANCER
General Considerations: The natural history of prostate cancer is highly variable. Therapeutic options may include surgery and radiation therapy along with Active Surveillance (also called observation, watchful waiting, expectant management, or deferred treatment). Active surveillance describes the monitoring of disease progression in an individual with known diagnosis of prostate cancer. Current guidelines suggest the following protocol:
• PSA every 6 months; • Digital Rectal Exam every 12 months and; • Repeat prostate biopsy every 12 months.
PET imaging (including 18F-FDG, 18F-NaF, and 11C-Choline ) is considered investigational and experimental for all indications for prostate cancer at this time.
Laser prostate ablation is considered investigational and experimental at this time, and advanced imaging for treatment planning and/or surveillance of laser prostate is not indicated .
High intensity focused ultrasound prostate ablation is considered investigational and experimental at this time, and advanced imaging for treatment planning and/or surveillance of high intensity focused ultrasound prostate ablation is not indicated.
MR Spectroscopy (CPT® 76390) is considered investigational and experimental in the evaluation of prostate cancer at this time.
Use of Imaging for Radiation Therapy Planning: o The correct procedure codes for radiation therapy planning are CPT®76497 for CT,
CPT®76498 for MRI, and CPT® 76873 for transrectal ultrasound. o Post-implantation imaging following permanent transperineal brachytherapy
implantation (also called “seed” therapy) should also be ordered with treatment planning codes rather than diagnostic CPT codes.
Indications for 3D Rendering of MRI for MRI / Ultrasound Fusion Biopsy: o Specific Target Lesion(s) is(are) detected on mpMRI prostate and classified as PIRADS 4 or 5:
then 3D at independent workstation 76377 (3D rendering requiring image post-processing on an independent workstation) is approvable (as subsequent separate Additional request or as Retro request for medical necessity) for the radiologist to generate Prostate Segmentation data image set for target identification on MRI / Ultrasound Fusion Biopsy.
o If there is no Target Lesion(s) identified on MRI then 3D rendering and MRI / Ultrasound Fusion is not generally indicated / needed. The Urologist may request Fusion MRI – U/S biopsy of a lesser
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PIRADS Lesion. Then approval of 76377 3D can be considered on a case-by-case basis and each case should be referred to Medical Director for review.
The 3D for the TRUS Fusion is a part of the UroNav / Fusion Equipment Software and an additional 3D code 76376 (3D rendering not requiring image post-processing on an independent workstation) should not be approved.
o o eviCore maintains that TRUS Fusion CPT®76376 (3D rendering not requiring image post-processing on an independent workstation) should not be separately reimbursed, since this function is built into the imaging software
ONC-19.1 SUSPECTED/DIAGNOSIS
Indication Imaging Study Elevated PSA, abnormal exam, or other clinical suspicion and no previous biopsy
• Transrectal ultrasound (TRUS, CPT® 76872)
• TRUS-guided biopsy (CPT® 76942)
At least one negative/non-diagnostic TRUS biopsy with documented plans for MRI guided biopsy or MRI/TRUS fusion biopsy and one of the following:
• Continued increase in PSA • Abnormal DRE
At least one negative/non-diagnostic TRUS biopsy with continued increase in PSA or abnormal DRE. MRI fusion biopsy requested.
One of the following may be approved: • MRI Pelvis without contrast (CPT®
72195) • MRI Pelvis without and with
contrast (CPT® 72197) • MRI/US fusion biopsy (CPT®
77021 and 76942) MRI guided biopsy (CPT®77021)
MR/US fusion biopsy (CPT® 77021 and 76942) or 72197
• MRI should not be used to make a decision not to biopsy1
PIRADS 4 or 5 lesion identified on recent diagnostic MRI Pelvis (CPT® 72195 or 72197) and planning for biopsy to be done by MRI/TRUS fusion technique
• 3D Rendering (CPT® 76377) CPT® 76376 should not be separately reimbursed (See Preface-4.1 3D Rendering for additional details)
At least one negative/nondiagnostic TRUS biopsy with continued increase in PSA or abnormal DRE. MRI guided biopsy requested
Treatment planning (cpt 77021)
Any of the following: • Multifocal (3 or more lesions) high-grade
prostatic intraepithelial neoplasia (PIN) Atypia on biopsy
• Extended pattern rebiopsy within 6 months by TRUS-guided biopsy (CPT® 76942)
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lesions) • MRI Pelvis without contrast (CPT® 72195)
• MRI Pelvis without and with contrast (CPT® 72197)
• MRI/US fusion biopsy (CPT® 77021 and 76942)
MRI guided biopsy (CPT®77021)MRI guided biopsy 77021 or
• MRI/Ultrasound fusion biopsy ( 77021 and 76942 or 72197)
Multifocal high-grade prostatic intraepithelial neoplasia (PIN)
Extended pattern rebiopsy within 6 months by TRUS ( 77021)
Atypia on TRUS biopsy Extended pattern rebiopsy within 6 months by TRUS (77021)
PIRADS 4 or 5 lesion identified on MRI 72197 Requests for 3D rendering for PIRADS 3 to be sent for medical director review.
3D rendering (cpt 76377) if biopsy will be done by MRI/Ultrasound fusion technique.
Practice Note on 3D Rendering of MRI for MRI / Ultrasound Fusion Biopsy: o When specific target lesion(s) is(are) detected on mpMRI prostate and classified as
PIRADS 4 or 5, then 3D Rendering at independent workstation (CPT® 76377, 3D rendering requiring image post-processing on an independent workstation) for the radiologist to generate prostate segmentation data image set for target identification on MRI/TRUS fusion biopsy is approvable either as subsequent separate standalone request or as Retro request for medical necessity.
o If there is no target lesion identified on MRI then 3D rendering and MRI/TRUS fusion biopsy is not generally indicated. The Urologist may request MRI/TRUS fusion biopsy of a PIRADS 1-3 lesion. Then approval of 3D Rendering at independent workstation (CPT® 76377) can be considered on a case-by-case basis. These cases should be referred for Medical Director review.
o The 3D Rendering for the TRUS component of the fusion is a part of the UroNav Fusion Equipment Software and an additional 3D code 76376 or 76377 should not be approved.
o eviCore maintains that CPT® 76376 (3D rendering not requiring image post-processing on an independent workstation) should not be separately reimbursed, since this function is built into the imaging software
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ONC-19.2 INITIAL WORKUP/STAGING Indication Imaging Study
Pelvic imaging for patients with one or more of the following high risk criteria: • Any Gleason score with palpable
disease outside of the prostate capsule (T3 or T4 disease)
• PSA > 20 • Gleason score ≥ 7 • Gleason score of 6 with one of the
following features: o Tumor involving >50% of one
lobe (T2b) o Tumor involving both lobes
(T2c) o PSA >10
All of the following can be approved: • CT Pelvis with contrast (CPT®72193) • MRI Pelvis without and with contrast
(CPT® 72197) • ProstaScint® Scan (Indium-111 labeled
capromab pendetide imaging, CPT®78800, CPT®78801, CPT®78802, CPT®78803, or CPT®78804) is indicated if standard diagnostic evaluation reveals localized disease, but physician has clinical suspicion of extra-prostatic spread
o Combined use of ProstaScint along with diagnostic CT (fused SPECT/CT) is considered investigational.
Abdominal imaging for patients with one or more of the following high risk criteria:: • Lymphadenopathy or extraprostatic
disease on pelvic imaging • Elevated creatinine for age • Hematuria not related to prostate
biopsy • Heme-occult positive stools • PSA>20
One of the following can be approved: • CT Abdomen with contrast (CPT®74160) • CT Abdomen without contrast
(CPT®74150)
All patients not listed above • Advanced imaging is not indicated • The use of endorectal MRI and/or multi-
parametric MRI to define low risk disease for active surveillance is considered experimental and investigational.
Bone pain and/or high risk patients • Bone scan (See ONC-1.3) • If neurological compromise, see: ONC-31.5 Metastatic Cancer Bone and Spine(Including Vertebral) Metastases
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ONC-19.3 RESTAGING/RECURRENCE Indication Imaging Study
All patients with one or more of the following: • New finding on most recent CT or
MRI that was inconclusive • PSA rising on 2 consecutive
measurements while on endocrine/hormonal therapy
• Clinical suspicion of recurrence or progression
• CT Abdomen/Pelvis with contrast (CPT®74177)
Patients with prior radical prostatectomy and any of the following: • Palpable anastomotic recurrence • PSA remains > 0.2 after at least 2
PSAs • Initial undetectable PSA increasing
on 2 consecutive PSAs
Any of the following can be approved: • CT Abdomen/Pelvis with contrast
(CPT®74177) • May add pelvis MRI pelvis without contrast
(CPT®72195) or without and with contrast (CPT®72197)
• ProstaScint Scan (CPT®78800, CPT®78801, CPT®78802, CPT®78803, or CPT®78804)
Patients with prior Radiation Therapy and any of the following: • Clinical suspicion of relapsed
disease • PSA increasing on at least 2
consecutive values above post-XRT baseline
Any of the following can be approved: • CT Abdomen/Pelvis with contrast
(CPT®74177) o MRI Pelvis without contrast (CPT®
72195) or without and with contrast (CPT®72197) if CT findings are inconclusive
• ProstaScint Scan (CPT®78800, CPT®78801, CPT®78802, CPT®78803, or CPT®78804
Hormone Refractory Prostate Cancer (HRPC):
• See Treatment Response, Interim RestagingInterim Restaging/Therapy Monitoring in: ONC-1.2 Phases of Oncology Imaging and General Phase-Related ConsiderationsONC-1.4 Terminology
Prior to start of Xofigo (Radium-223) therapy
• One time CT chestChest/abdomenAbdomen/pelvis Pelvis with contrast (CPT®71260 and CPT®74177).
• Additional imaging based on standard restaging guidelines in this section.
All patients with one or more of the • MRI Pelvis without contrast (CPT® 72195)
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following: • Obvious progression by DRE with
plans for prostatectomy or radiation therapy
• ; Repeat TRUS biopsy for rising PSA shows progression to a higher Gleason’s score with plans for prostatectomy or radiation therapy
or without and with contrast (CPT® 72197)
ONC-19.4 SURVEILLANCE/FOLLOW UP
Indication Imaging/Lab Study All patients • PSA and DRE every 6 months, even in patients with metastatic
disease. • Advanced imaging not needed, including individuals on active
surveillance or low grade/low risk tumors treated with observation Patients on active surveillance
• Routine MR/US fusion biopsy for annual surveillance is considered investigational at this time.
• MRI pelvis without (CPT® 72195) or without and with contrast (CPT® 72197) can be approved if one of the following apply:
o progression Progression is suspected based on DRE changes changes or rising PSA and a recent TRUS biopsy was negativeor
o rRoutine TRUS biopsy reveals progression of Gleason score.
• MRI should not be used to make a decision not to biopsy1
References 1. Makarov DV, Trock BJ, Humphreys EB et al, Updated Nomogram to Predict Pathologic Stage of
Prostate Cancer Given Prostate-Specific Antigen Level, Clinical Stage, and Biopsy Gleason Score (Partin Tables) Based on Cases from 2000 to 2005, Urology 2007;69:1095-1101.
2. D’Amico AV, Whittington R, Malkowicz SB et al, Biochemical outcome after radical prostatectomy or external beam radiation therapy for patients with clinically localized prostate carcinoma in the prostate specific antigen era, Cancer 2002;95:281-286.
3. Abuzallouf S, Dayes I, and Lukka H, Baseline Staging of Newly Diagnosed Prostate Cancer: A Summary of the Literature, J Urol 2004;171:2122-2127.
4. Cagiannos I, Karakiewicz P, Eastham JA et al, A Preoperative Nomogram Identifying Decreased Risk of Positive Pelvic Lymph Nodes in Patients With Prostate Cancer, J Urol 2003;170:1798-1803.
5. Mullerad M, Hricak H, Kuroiwa K et al, Comparison of Endorectal Magnetic Resonance Imaging, Guided Prostate Biopsy and Digital Rectal Examination in the Preoperative Anatomical Localization of Prostate Cancer, J Urol 2005;174:2158-2163.
6. Thomason I, Thrasher JB, Aus G et al, Guideline for the Management of Clinically Localized prostate Cancer: 2007 Update, ©2007 American Urological Association.
7. Klotz L, Active Surveillance for Prostate Cancer: For Whom? J Clin Oncol 2005;23:8165-8169. V19.0; Effective 11/1/2016- Oncology Imaging
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8. Yeh SDJ, Imbriaco M, Larson SM et al, Detection of bony metastases of androgen-independent prostate cancer by PET-FDG, Nucl Med Biol 1996;23:693-697.
9. Stephenson AJ, Shariat SF, Zelefsky MJ et al, Salvage Radiotherapy for Recurrent Prostate Cancer After Radical Prostatectomy, JAMA 2004;291:1325-1332.
10. Roach M III, Hanks G, Thames H Jr., Defining biochemical failure following radiotherapy with or without hormonal therapy in men with clinically localized prostate cancer: Recommendations of the RTOG-ASTRO Phoenix Consensus Conference, Int J Radiat Oncol Biol Phys 2006;65:965-974.
11. Zagars GK and Pollack A, Kinetics of serum prostate-specific antigen after external beam radiation for clinically localized prostate cancer, Radiother Oncol 1997;44:213-221.
12. Swanson GP, Thompson IM, Tangen C et al, Phase III Randomized Study of Adjuvant Radiation Therapy versus Observation in Patients with Pathologic T3 Prostate Cancer (SWOG 8794), Int J Radiat Oncol Biol Phys 2005;63:S1.
1. Chen RC, Rumble RB, Loblaw DA et al, Active Surveillance for the Management of Localized Prostate Cancer (Cancer Care Ontario Guideline): American Society of Clinical Oncology Clinical Practice Guideline Endorsement, J Clin Oncol 2016;34:2182-2190.
13.2. Wilt TJ, Brawer MK, Jones KM et al, Radical prostatectomy versus observation for localized prostate cancer, N Engl J Med 2012;367:203-213.
14.3. Lu-Yao GL, Albertsen PC, Moore DF et al, Outcomes of localized prostate cancer following conservative management, JAMA 2009;302:1202-1209.
15.4. Liu D, Lehmann HP, Frick KD, and Carter HB, Active surveillance versus surgery for low risk prostate cancer: a clinical decision analysis, J Urol 2012;187:1241-1246.
16.5. Klotz L, Zhang L, Lam A et al, Clinical results of long-term follow-up of a large, active surveillance cohort with localized prostate cancer, J Clin Oncol 2010;28:126-131.
17.6. Tosoian JJ, Trock BJ, Landis P et al, Active surveillance program for prostate cancer: an update of the Johns Hopkins experience, J Clin Oncol 2011;29:2185-2190.
18.7. Blomqvist L, Carlsson S, Gjertsson P et al, Limited evidence for the use of imaging to detect prostate cancer: a systematic review, Eur J Radiol 2014;83:1601–1606.
19.8. Schoots IG, Petrides N, Giganti F et al, Magnetic Resonance Imaging in Active Surveillance of Prostate Cancer: A Systematic Review, Eur Urol 2015;67:627-636.
20.9. Quentin M, Blondin D, Arsov C et al, Prospective Evaluation of Magnetic Resonance Imaging Guided In-bore Prostate Biopsy versus Systematic Transrectal Ultrasound Guided Prostate Biopsy in Biopsy Naïve Men with Elevated Prostate Specific Antigen, J Urol 2014;192:1374-1379.
21.10. Klotz L, Vesprini D, Sethukavalan P et al, Long-Term Follow-Up of a Large Active Surveillance Cohort of Patients With Prostate Cancer, J Clin Oncol 2015;33:272-277.
11. Cooperberg MR, Long-Term Active Surveillance for Prostate Cancer: Answers and Questions, J Clin Oncol 2015; 33:238-240.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Prostate Cancer. V3. 2016. Available at: www.nccn.org. Accessed June 16, 2016.
12. Risko R, Merdan S, Womble PR, et al. Clinical predictors and recommendations for staging computed tomography scan among men with prostate cancer. Urology. 2014; 84(6):1329-1334.
13. Heck MM, Souvatzoglou M, Retz M, et al. Prospective comparison of computed tomography, diffusion-weighted magnetic resonance imaging and [11C]choline positron emission tomography/computer tomography for preoperative lymph node stating in prostate cancer patients. Eur J Nucl Med Mol Imaging. 2014; 41(4):694-701.
14. Brennan SM, Gregory DL, Stillie A, et al. Should extrapulmonary small cell cancer be managed like small cell lung cancer? Cancer. 2010; 116(4):888-895. 22.
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ONC-20~Testicular and Non-epithelial Ovarian (Germ Cell) Cancer
ONC-20 Testicular and Non-epithelial Ovarian (Germ Cell) Cancer 20.1 Initial Workup/Staging 133
20.2 Restaging/Recurrence 134
20.3 Surveillance 134
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ONC-20~Testicular and Non-epithelial Ovarian (Germ Cell) Cancer
This section applies to primary germ cell tumors occurring outside the central nervous system in patients age >15 years at the time of initial diagnosis. Patients age ≤15 years at diagnosis should be imaged according to pediatric guidelines in: PEDONC-10~Pediatric Germ Cell Tumors These guidelines are for germ cell tumors of the testicle, ovary, and any extragonadal site. Requests for imaging must state the histologic type of the cancer being evaluated. Classified as pure seminomas (dysgerminomas, 40%) or Non-seminomatous germ cell tumors (NSGCT, 60%):
o Pure seminomas are defined as pure seminoma histology with a normal serum concentration of alpha fetoprotein (AFP). Seminomas with elevated AFP are by definition Mixed.
o Required for TNM staging are the tumor marker levels indicated by “S” (TNMS) o Mixed tumors are treated as NSGCTs, as they tend to be more aggressive. o The NSGCT histologies include:
• Yolk-Sac tumors • Immature (malignant) teratomas • Choriocarcinomas (<1%) • Embryonal cell carcinomas (15%-20%) • Endodermal Sinus Tumors (ovarian) • Combinations of all of the above (Mixed)
ONC-20.1 SUSPECTED/DIAGNOSIS Indication Imaging Study
Primary Extragonadal site is suspected or signs/symptoms of extragonadal disease
• CT Chest (CPT®71260 ) and Abdomen/Pelvis (CPT®74177) with contrast
ONC-20.2 1 INITIAL WORKUP/STAGING Indication Imaging Study
Orchiectomy/oophorectomy is both diagnostic and therapeutic
Following orchiectomy or oophorectomy: • CT Abdomen/Pelvis with contrast
(CPT®74177) • CT Chest with contrast (CPT® 71260) for
positive abdominal disease by CT scan, abnormal CXR, or signs/symptoms
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ONC-20.3 2 RESTAGING/RECURRENCE Indication Imaging Study
Treatment response for stage II-IV patients with measurable disease on CT
• CT with contrast of previously involved body areas every 2 cycles
Seminoma with residual mass >3 cm • PET/CT (CPT®78815) o PET imaging can be done as early
as 6 weeks after completion of XRT if recent CT findings are inconclusive and PET findings will alter immediate care decision making
End of therapy evaluation for NSGCT post chemotherapy or post retroperitoneal lymph node dissection (RPLND)
• CT Abdomen/Pelvis with contrast (CPT®74177)
Recurrence suspected, including increased tumor markers
• CT Chest (CPT®71260 ) and Abdomen/Pelvis (CPT®74177) with contrast
• Ultrasound (CPT®76856 or CPT®76857) of the remaining gonad if applicable
• Unexplained pulmonary symptoms despite a negative CXR, or new findings on CXR
• CT Chest with contrast (CPT®71260)
All others See Surveillance
ONC-20.4 3 SURVEILLANCE**
Indication Imaging Study Stage I Ovarian Dysgerminomas or low grade immature Teratomas
• No routine advanced imaging needed
Stage I Seminoma treated with orchiectomy alone (no radiotherapy or chemotherapy, also called active surveillance) Active surveillance.
• CT Abdomen/Pelvis with contrast (CPT®74177) at 3, 6 and 12 months post-orchiectomy, then annually until year 5
Stage I Seminoma treated with radiotherapy and/or chemotherapy
• CT Abdomen/Pelvis with contrast (CPT®74177) annually for 3 years
Stage IIA and Non-Bulky Stage IIB Seminomas treated with radiotherapy or chemotherapy
• CT Abdomen/Pelvis with contrast (CPT®74177) once at 3 months then once at , 6 and 6-12 months after completion of therapy, then annually until year 3
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Stage IV Seminomas treated with chemotherapy
• CT Abdomen/Pelvis with contrast (CPT®74177) once at 3-6 months after completion of therapy, then no further routine advanced imaging
For patients with >3 cm residual mass and negative PET scan: • CT Abdomen/Pelvis with contrast
(CPT®74177) at 6 and 12 months after completion of therapy, then annually until year 5
For patients with thoracic disease at diagnosis: • CT Chest with contrast (CPT®71260) every
2 months for 1 year, then every 3 months for 1 year, then annually until year 5
Stage IA Non-Seminomatous germ cell tumors treated with orchiectomy alone (no radiotherapy or chemotherapy, also called active surveillance) Active Surveillance.
• CT Abdomen/Pelvis with contrast (CPT®74177) at 6 and 12 months after orchiectomy, then annually until year 5 3
Stage IB Non-Seminomatous germ cell tumors treated with orchiectomy alone (no radiotherapy or chemotherapy, also called active surveillance)
• CT Abdomen/Pelvis with contrast (CPT®74177) every 4 months for 1 year, then every 6 months for 2 years, then annually until year 4
Stage IB Non-Seminomatous germ cell tumors treated with chemotherapy
• CT Abdomen/Pelvis with contrast (CPT®74177) annually for 2 years
Stage II-IIIV Non-Seminomatous germ cell tumors with complete response to chemotherapy +/- post-chemotherapy RPLND
• CT Abdomen/Pelvis with contrast (CPT®74177) once at 6, 12, and 24 months after completion of therapy
For patients with thoracic disease at diagnosis: • CT Chest with contrast (CPT®71260) every
6 months for 2 years, then annually until year 4
Stage IIA or IIB Non-Seminomatous germ cell tumors with post-primary RPLND complete resection +/- adjuvant chemotherapy
• CT Abdomen/Pelvis with contrast (CPT®74177) once at 3-4 months after completion of therapy
All female germ cell tumors • No routine imaging unless elevated tumor markers or clinical signs/symptoms of recurrence
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Sex cord stromal tumors (male and female)
• No routine advanced imaging indicated unless elevated tumor markers or clinical signs/symptoms of recurrence
**Practice Note: MRI in place of CT scans to reduce risk of secondary malignancy is not supported by the peer-reviewed literature. CT scans are indicated for surveillance and is the preferred modality of imaging to assess for recurrence. References 1. Salani R, Backes FJ, Fung MFK et al, Posttreatment surveillance and diagnosis of recurrence in
women with gynecologic malignancies: Society of Gynecologic Oncologists recommendations, Am J Obstet Gynecol 2011; 204 466-478.
2. Gershenson DM, Management of Ovarian Germ Cell Tumors, J Clin Oncol 2007;25:2938-2943. 3. Colombo N, Parma G, Zanagnolo V, and Insinga A, Management of Ovarian Stromal Cell Tumors, J
Clin Oncol 2007;25:2944-2951. 4. Cadron I, Leunen K, Van Gorp T et al, Management of Borderline Ovarian Neoplasms, J Clin Oncol
2007;25:2928-2937. 5. Del Carmen MG, Birrer M, and Schorge JO, Carcinosarcoma of the ovary: A review of the
literature, Gynecol Oncol 2012; 125 271-277. 6. Kollmannsberger C, Tandstad T, Bedard PL et al, Patterns of relapse in patients with clinical stage I
testicular cancer managed with active surveillance, J Clin Oncol 2015;33:51-57. 7. Oechsle K, Hartmann M, Brenner W, et al. [18F]Fluorodeoxyglucose positron emission tomography
in nonseminomatous germ cell tumors after chemotherapy: the German multicenter positron emission tomography study group. J Clin Oncol. 2008; 26(36):5930-5935.
6.
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ONCOLOGY IMAGING GUIDELINES
ONC-21~OVARIAN CANCER
ONC-21 Ovarian Cancer 21.1 Screening for Ovarian Cancer 138
21.2 Suspected/Diagnosis 138
21.3 Initial WorkUp/Staging 139
21.4 Restaging/Recurrence 139
21.5 Surveillance 140
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ONC-21~OVARIAN CANCER
Practice Note: Ovarian cancers include: epithelial ovarian cancers, granulosa cell tumors, ovarian cancers of low malignant potential and mixed Müllerian tumors, primary peritoneal and fallopian tube cancers. Germ cell tumors, including stromal tumors, are imaged according to ONC-20~Testicular and Non-epithelial Ovarian (Germ Cell) Cancer.
ONC-21.1 Screening for Ovarian Cancer
Indication Imaging/Lab Study • BRCA 1 or BRCA 2 mutations (or family
history of these mutations) at age 30 or 10 years earlier than the earliest age of the first diagnosis of ovarian cancer in the family;
or • Other High Risk:
o low parity o decreased fertility o delayed childbearing o family history of ovarian cancer o hereditary ovarian cancer syndrome that
includes ovarian, breast, and/or endometrial and gastrointestinal cancers [Lynch II syndrome] in multiple members of two to four generations)
• Ovarian cancer screening is considered experimental & investigational and is not recommended.
• Genetic counseling is recommended for women with an increased-risk family history (USPSTF, 2015)Ultrasound (CPT®76856 or CPT®76857 and/or CPT®76830 [transvaginal]) annually if there is no mass on physical examination; CA 125 annually in post-menopausal only.
ONC-21.2 SUSPECTED/DIAGNOSIS
See PV-5.1 Suspected Adnexal Mass – Initial Evaluation in All Women for imaging guidelines for evaluation of suspected ovarian malignancies
Indication Imaging Study All suspected • CT Abdomen/Pelvis with contrast (CPT®74177) as a pre-operative
study to evaluate for metastatic disease when cancer is known or suspected See also:
PV-5.1 Suspected Adnexal Mass–Initial Evaluation in All Women
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ONC-21.3 INITIAL WORKUP/STAGING Indication Imaging Study
Clinical stage II disease or higher • CT Abdomen/Pelvis with contrast (CPT®74177)
• CT Chest with contrast (CPT®71260) if abnormal signs/symptoms of pulmonary disease or abnormal chest X-ray
Any of the following: • Primary peritoneal disease with biopsy-
proven malignancy consistent with ovarian carcinoma
• Elevated tumor markers with negative or inconclusive CT imaging
• PET/CT (CPT® 78815)
ONC-21.4 RESTAGING/RECURRENCE Indication Imaging Study
Completely resected or definitively treated with chemotherapy and normal(ized) tumor markers
• No advanced imaging needed
Any of the following: • Unresected disease • Unknown preoperative markers • Difficult or abnormal examination • Elevated LFTs • Rising tumor markers (CA-125, inhibin) • Signs or symptoms of recurrence
• CT Abdomen/Pelvis with contrast (CPT®74177)
• CT Chest (CPT®71260) for any of the following:
o Prior known thoracic disease o New or worsening thoracic
signs/symptoms or CXR findings
o Rising CA-125 • CT negative or inconclusive and CA-125
continues to rise or elevated LFTs • Conventional imaging failed to
demonstrate tumor or if persistent radiographic mass with rising tumor markers
• PET/CT (CPT® 78815)
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ONC-21.5 SURVEILLANCE Indication Imaging Study
All • No advanced imaging needed
References 1. Cadron I, Leunen K, Van Gorp T et al, Management of Borderline Ovarian Neoplasms, J Clin Oncol
2007;25:2928-2937. 2. Pandharipande PV, Harvey B, Javitt MC et al, Ovarian Cancer Screening, ACR Appropriateness
Criteria® 2012;1-8. 3. ACOG Practice bulletin No. 103: Hereditary breast and ovarian cancer syndrome, April 2009,
Reaffirmed 2015. 4. Shinagare AB, O’Neill AC, Cheng S et al, Advanced High-Grade Serous Ovarian Cancer:
Frequency and Timing of Thoracic Metastases and the Implications for Chest Imaging Follow-up, Radiology 2015;277:733-740.
5. ACOG Practice Bulletin No. 83: Management of adnexal masses, July 2007, Reaffirmed 2015.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Ovarian Cancer. V2. 2015. Available at: www.nccn.org. Accessed June 16, 2016.
6. Musto A, Grassetto G, Marzola MC, et al. Management of epithelial ovarian cancer from diagnosis to restaging: an overview of the role of imaging techniques with particular regard to the contribution of 18F-FDG PET/CT. Nucl Med Commun. 2014; 35(6):588-597.
7. Fischerova D, Burgetova A. Imaging techniques for the evaluation of ovarian cancer. Best Pract Res Clin Obstet Gynaecol. 2014; 28(5):697-720.
8. International Journal of Gynecologic Cancer volume 8 pages 598-607 2013 9. International Journal of Gynecologic Cancers volume 55 supplement 2 pages S27-S28 2010
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ONCOLOGY IMAGING GUIDELINES
ONC-22~UTERINE CANCER
ONC-22 Uterine Cancer 22.1 Suspected/Diagnosis 142
22.2 Initial Workup/Work-Up 142
22.3 Restaging/Recurrence 143
22.4 Surveillance 143
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ONC-22~UTERINE CANCER o Gestational trophoblastic neoplasia (GTN) – see PV-16~Molar Pregnancy o PET is not routinely indicated for initial diagnosis; staging or restaging of uterine
cancer. o Most common cell type is adenocarcinoma
ONC-22.1 SUSPECTED/DIAGNOSIS See PV-14 Uterine Anomalies for imaging guidelines for evaluation of suspected
uterine malignancies
Indication Imaging Study
All patients • Transvaginal ultrasound (CPT®76830) and endometrial biopsy
ONC-22.2 INITIAL WORKUP/WORK-UP Indication Imaging Study
Extra-uterine disease suspected and/or Grade 3 tumor.
• MRI Pelvis without and with contrast (CPT®72197) or CT Pelvis with contrast (CPT®72193)
LFT’s elevated or other imaging studies suggesting liver involvement
• CT Abdomen with contrast (CPT®74160)
Any of the following histologies: • Papillary serous • Clear cell • Carcinosarcoma • Soft tissue sarcoma of the uterus • Leiomyosarcoma • Undifferentiated sarcoma • Endometrial stromal sarcoma
• CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177)
All other patients • Routine advanced imaging not needed
Considering fertility sparing surgery for well-differentiated Stage IA (grade 1) uterine cancer
• Transvaginal ultrasound (CPT®76830)and MRI pelvis without and with contrast (CPT®72197)
Practice Note: Imaging not routinely indicated for laparoscopic/minimally invasive surgery unless initial staging criteria are met. Pelvic and para-aortic lymphadenectomy can still be performed.
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ONC-22.3 RESTAGING/RECURRENCE Indication Imaging Study
Unresectable, medically inoperable, or incompletely surgically staged patients
One of the following: • CT Abdomen/Pelvis with contrast
(CPT®74177) or • MRI Abdomen (CPT®74183) and
Pelvis (CPT®72197) without and with contrast
• Unresected disease • Difficult or abnormal examination • Elevated LFTs or rising tumor markers • Signs or symptoms of recurrence
• CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177)
Papillary serous, clear cell and carcinosarcoma of the uterus
See: RESTAGING/RECURRENCE section in: ONC-21.4 Ovarian Cancer
Soft tissue sarcoma of the uterus, leiomyosarcoma, undifferentiated sarcoma, and endometrial stromal sarcoma
See: RESTAGING/RECURRENCE section in ONC-12.1.3 Soft Tissue Sarcoma Restaging/Recurrence
ONC-22.4 SURVEILLANCE Indication Imaging Study
Papillary serous, clear cell and carcinosarcoma of the uterus
See: SURVEILLANCE section in: ONC-21.5 Ovarian Cancer
Soft tissue sarcoma of the uterus, leiomyosarcoma, undifferentiated sarcoma, and endometrial stromal sarcoma
See: ONC-12.4 SOFT TISSUE SARCOMA SURVEILLANCE/FOLLOW-UP
All others • No advanced imaging needed
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References 1. Fader AN, Boruta D, Olawaiye AB, and Gehrig PA, Updates on uterine papillary serous carcinoma,
Expert Rev Obstet Gynecol 2009;4:647-657. 2. Boruta DM II, Gehrig PA, Fader AN, and Olawaiye AB, Management of women with uterine
papillary serous cancer: A Society of Gynecologic Oncology (SGO) review, Gynecol Oncol 2009;115:142-153.
3. Olawaiye AB and Boruta DM II, Management of women with clear cell endometrial cancer: A Society of Gynecologic Oncology (SGO) review, Gynecol Oncol 2009;113:277-283.
4. Cirisano FD Jr., Robboy SJ, Dodge RK et al, The Outcome of Stage I-II Clinically and Surgically Staged Papillary Serous and Clear Cell Endometrial Cancers When Compared with Endometroid Carcinoma, Gynecol Oncol 2000;77:55-65.
5.4. Varughese J, Hui P, Lu L, Yu H, and Schwartz PE, Clear Cell Cancer of the Uterine Corpus: The Association of Clinicopathologic Parameters and Treatment on Disease Progression, J Oncol 2011;2011:1-6. Article ID 628084, http://dx.doi.org/10.1155/2011/628084.
6. McCluggage WG, Uterine carcinosarcomas (malignant mixed Mullerian tumors) are metaplastic carcinomas, Int J Gynecol Cancer 2002;12:687-690.
7.5. Kernochan LE and Garcia RL, Carcinosarcomas (Malignant Mixed Müllerian Tumor) of the Uterus: Advances in Elucidation of Biologic and Clinical Characteristics, J Natl Compr Canc Netw 2009;7:550-556.
6. Salani R, Backes FJ, Fung MFK et al, Posttreatment surveillance and diagnosis of recurrence in women with gynecologic malignancies: Society of Gynecologic Oncologists recommendations, Am J Obstet Gynecol 2011;204:466-478.
7. ACTA Obstetrics and Gynecology (Scandinavia) volume 91 pages 976-982 2012 8. Salani R, Backes FJ, Fung MF, et al. Posttreatment surveillance and diagnosis of recurrence in
women with gynecologic malignancies: Society of Gynecologic Oncologists recommendations. Am J Obstet Gynecol. 2011; 204(6):466-478.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Uterine Neoplasms. V2. 2016. Available at: www.nccn.org. Accessed June 16, 2016.
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ONC-23~CERVICALX CANCER
ONC-23 Cervical Cancer 23.1 Suspected/Diagnosis 146
23.2 Initial Workup/Staging 146
23.3 Restaging/Recurrence 147
23.4 Surveillance 147
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ONC-23~CERVICALX CANCER
Primary histology for cervical cancer is squamous cell. Other, less common histologies are adenosquamous and adenocarcinoma. If biopsy is consistent with one of these less common histologies, it is necessary to clarify that tumor is not of primary uterine origin. If primary uterine in origin, follow imaging recommendations for uterine cancer. (See: ONC-22 Uterine Cancer)
ONC-23.1 SUSPECTED/DIAGNOSIS Indication Imaging Study
All Biopsy should be performed prior to imaging
ONC-23.2 INITIAL WORKUP/STAGING Indication Imaging Study
Stage IB1 or less: <4 cm confined to the cervix
• Chest X-ray o CT Chest (CPT®71260) is indicated if abnormal
CXR or new/worsening thoracic signs/symptoms • CT Abdomen/Pelvis with contrast (CPT®74177)
o PET/CT (CPT®78815) should be approved only to explain inconclusive on other imaging studies. Requests will be forwarded to Medical Director.
Stage IB2 or higher stages • CT Abdomen/Pelvis with contrast (CPT®74177) or PET/CT (CPT®78815)
• CT chest Chest with contrast (CPT®71260) if enlarged para-aortic nodes on CT Abdomen/Pelvis or positive paraaortic nodes found at surgery
o MRI Abdomen (CPT®74183) and Pelvis (CPT®72197) without and with contrast if CT contrast allergy or inconclusive CT findings
• If radiation therapy is to be primary treatment modality, PET/CT (CPT®78815) can be approved prior to start of XRT even if initial staging is done with CT scans
o If PET is done as initial staging CT scans not indicated prior to start of therapy
Any size cervical cancer incidentally found in a hysterectomy specimen
• Chest X-ray • CT Abdomen/Pelvis with contrast (CPT®74177)
o MRI Abdomen (CPT®74183) and Pelvis (CPT®72197) without and with contrast if CT contrast allergy or inconclusive CT findings
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• PET/CT (CPT®78815) if inconclusive conventional imaging
ONC-23.3 RESTAGING/RECURRENCE
Indication Imaging Study • Difficult or abnormal
examination • Elevated LFTs • Signs or symptoms of
recurrence
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
o MRI Abdomen (CPT®74183) and Pelvis (CPT®72197) without and with contrast if CT contrast allergy or inconclusive CT findings
• PET/CT (CPT®78815) for inconclusive conventional imaging
If primary therapy was surgery
• See Surveillance guidelines ONC-23.4
If primary therapy radiation therapy ± chemotherapy (not adjuvant therapy)
• Chest X-ray o CT Chest (CPT®71260) is indicated if
abnormal CXR or new/worsening thoracic signs/symptoms
• CT Abdomen/Pelvis with contrast (CPT®74177) o MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast if CT contrast allergy or inconclusive CT findings
• PET/CT (CPT®78815) o If ordered for this restaging indication, only
one PET/CT should be approved and only if surgical salvage is an option
o After the one PET/CT, further follow-up imaging should be with CT or MRI
ONC-23.4 SURVEILLANCE Indication Imaging Study
All patients • No routine advanced imaging needed.
References 1. Salani R, Backes FJ, Fung MFK et al, Posttreatment surveillance and diagnosis of recurrence in
women with gynecologic malignancies: Society of Gynecologic Oncologists recommendations, Am J Obstet Gynecol 2011;204:466-478.
2. Zanagnolo V, Ming L, Gadducci A et al, Surveillance Procedures for Patients with Cervical Carcinoma: A Review of the Literature, Int J Gynecol Cancer 2009;19:194-201.
3. Elit L, Fyles AW, Devries MC et al, Follow-up for women after treatment for cervical cancer: A
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systematic review, Gynecol Oncol 2009;114:528-535. 4. Schwarz JK, Siegel BA, Dehdashti F, and Grigsby PW, Association of Posttherapy Positron
Emission Tomography With Tumor Response and Survival in Cervical Carcinoma, JAMA 2007;298:2289-2295.
5. Meads C, Davenport C, Malysiak S, et al. Evaluating PET-CT in the detection and management of recurrent cervical cancer: systematic reviews of diagnostic accuracy and subjective elicitation. BJOG. 2014;121(4):398-407.
6. Chu Y, Zheng A, Wang F, et al. Diagnostic value of 18F-FDG-PET or PET-CT in recurrent cervical cancer: a systematic review and meta-analysis. Nucl Med Commun. 2014; 35(2):144-150.
7. Archives of Gynecologic Oncology volume 290 pages 741-741 2014 National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology.
Cervical Cancer. V1. 2016. Available at: www.nccn.org. Accessed June 16, 2016.
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ONC-24~Anal & Vaginal Cancer, Cancers of the External Genitalia
ONC-24 Anagl & Vaginal Cancer, Cancers of the External Genitalia 24.1 Suspected/Diagnosis 150
24.2 Initial Workup/Staging 150
24.3 Restaging/Recurrence 151
24.4 Surveillance 151
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ONC-24~Anal & Vaginal Cancer, Cancers of the External Genitalia
Practice Note: o Most are squamous cell carcinomas, although some transitional and cloacogenic
carcinomas are seen. o Tumors reported as adenocarcinomas of the anal canal are treated as rectal cancers o Squamous cell carcinomas of the perianal and perigenital areas are essentially skin
cancers. See ONC-5.
ONC-24.1 SUSPECTED/DIAGNOSIS Indication Imaging Study
All • Advanced imaging prior to biopsy is not needed
ONC-24.2 INITIAL WORKUP/STAGING Indication Imaging Study
All patients • CT Chest with contrast (CPT®71260)
One of the following: • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT Abdomen with contrast (CPT® 74160)
and MRI Pelvis without and with contrast (CPT® 72197)
Stage II-IV Squamous Cell Carcinoma of the Anal Canal (not Anal Margin such as Bowen’s disease or Paget’s disease)
• PET/CT (CPT®78815)
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ONC-24.3 RESTAGING/RECURRENCE Indication Study
Stage I and II patients • Routine advanced imaging not needed Stage III and IV patients • CT Abdomen/Pelvis with contrast (CPT
74177) • CT Chest (CPT®71260) if chest x-ray is
abnormal or if symptoms of chest involvement
• Difficult or abnormal examination • Elevated LFTs • Signs or symptoms of recurrence • Biopsy proven recurrence
• CT Chest (CPT®71260) with contrast
One of the following: • CT Abdomen/Pelvis with contrast
(CPT®74177) • MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast Inconclusive findings on conventional imaging
• PET/CT (CPT®78815)
ONC-24.4 SURVEILLANCE Indication Study
Anal canal cancer: Tumors initially ≥ 5 cm or tumors with lymphadenopathyStage 3 or greater
• CT Chest (CPT®71260) with contrast annually for 3 years
One of the following annually for 3 years: • CT Abdomen/Pelvis with contrast (CPT®74177) • MRI Abdomen (CPT®74183) and Pelvis
(CPT®72197) without and with contrast
Penile cancer: Node positive disease only
• CT Abdomen/Pelvis with contrast (CPT®74177) every 3 months for year 1, and then every 6 months for year 2, then no further routine advanced imaging only as clinically indicated
All other patients • No routine advanced imaging needed
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References 1. Bhuva NJ, Glynne-Jones R, Sonoda L, Wong W-L, and Harrison MK, To PET or not to PET? That
is the question. Staging in anal cancer, Ann Oncol 2012;23:2078-2082. 2. Cotter SE, Grigsby PW, Siegel BA et al, FDG-PET/CT in the evaluation of anal carcinoma, Int J
Radiat Oncol Biol Phys 2006;65:720-725. 2. Mistrangelo M, Pelosi E, Bello M et al, Role of positron emission tomography-computed
tomography in the management of anal cancer, Int J Radiat Oncol Biol Phys 2012;84:66-72. 3. Jones M, Hruby G, Solomon M, Rutherford N, Martin J. The role of FDG-PET in the initial staging
and response assessment of anal cancer: a systematic review and meta-analysis. Ann Surg Oncol. 2015; 22(11):3574-3581.
4. Saboo SS, Zukotynski K, Shinagare AB, Krajewski KM, Ramaiya N. Anal carcinoma: FDG PET/CT in staging, response evaluation, and follow-up. Abdom Imaging. 2013; 38(4):728-735.
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ONCOLOGY IMAGING GUIDELINES
ONC-25~Multiple Myeloma and Plasmacytomas
ONC-25 Multiple Myeloma and Plasmacytomas
25.1 Suspected/Diagnosis 154
25.2 Initial Workup/Staging 155
25.3 Restaging/Recurrence 156
25.4 Surveillance 157
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ONCOLOGY IMAGING GUIDELINES
ONC-25~Multiple Myeloma and Plasmacytomas
Multiple myeloma is a neoplastic disorder characterized by the proliferation of a single clone of plasma cells derived from B cells which grows in the bone marrow and adjacent bone, producing skeletal destruction. Multiple myeloma diagnosis has (with certain exceptions) all three of the following:
1. The presence of a monoclonal plasma protein (M-protein) in the urine or serum. 2. Monoclonal cells in the bone marrow and/or presence of a biopsy proven
plasmacytoma. 3. Myeloma related organ dysfunction, including radiographic abnormalities, as well
as hypercalcemia, elevated creatinine, anemia, etc.
Monoclonal Gammopathy of Unknown Significance (MGUS) or for Systemic Light Chain Amyloidosis – no advanced imaging is generally needed (see below for exceptions). Staging is not by the TNM system; rather, extent of the disease is based on laboratory assessment. There are three stages. Stage 1 disease may be called “Smoldering Myeloma,” and can be followed with observation and laboratory assessment. Rarely, (<5%), an individual may have Nonsecretory Myeloma, which does not produce measurable M-protein. These patients require imaging as primary method to monitor disease. Plasmacytoma: Malignant tumor cell growth of plasma cells that may be:
o Solitary plasmacytoma of bone o Extramedullary plasmacytoma o Multiple plasmacytomas either primary or recurrent
For myeloma like and lymphoma like disease, see ONC-27~Lymphomas.
ONC-25.1 SUSPECTED/DIAGNOSIS Indication Imaging Study
All • X-ray skeletal series
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ONC-25.2 INITIAL WORKUP/STAGING Indication Imaging Study
All patients with symptoms or negative/equivocal X-ray skeletal series
One of the following: • MRI Cervical (CPT®72141), Thoracic
(CPT®72146), Lumbar spine (CPT®72148), and Pelvis (CPT®72195) without contrast
• MRI Cervical (CPT®72156), Thoracic (CPT®72157), Lumbar spine (CPT®72158), and Pelvis (CPT®72197) without and with contrast
• MRI Bone Marrow Blood Supply (CPT®77084)
• CT contrast as requested of a specific area to determine radiotherapy or surgical candidacy, or for suspected extraosseous plasmacytoma
Any of the following: • Determine if plasmacytoma is truly
solitary • Suspected extraosseous
plasmacytomas • Ensure patient has Stage I or
“smoldering” myeloma and does not have “full-blown” myeloma
• Progression of monoclonal gammopathy of unknown significance (MGUS) to a more malignant form
• Inconclusive radiographic imaging
One of the following (if not previously done): • PET/CT (CPT® 78815 or 78816) • MRI Cervical (CPT®72141), Thoracic
(CPT®72146), Lumbar spine (CPT®72148), and Pelvis (CPT®72195) without contrast
• MRI Cervical (CPT®72156), Thoracic (CPT®72157), Lumbar spine (CPT®72158), and Pelvis (CPT®72197) without and with contrast
• MRI Bone Marrow Blood Supply (CPT®77084)
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ONC-25.3 RESTAGING/RECURRENCE Indication Imaging Study
Extra-osseous plasmacytoma response to initial therapy
• CT contrast as requested, MRI without contrast, or MRI without and with contrast of any previously involved area
Laboratory tests fail to normalize with treatment
• CT contrast as requested, MRI without contrast, or MRI without and with contrast of symptomatic areas
Known spine involvement with new neurological signs/symptoms, pain escalation, or to determine therapy response with inconclusive labs
• MRI Cervical (CPT®72156), Thoracic (CPT®72157), Lumbar spine (CPT®72158), and Pelvis (CPT®72197) without and with contrast
Recurrence suspected • MRI without contrast, or MRI without and with contrast for any previously involved bony area or symptomatic area
Bone marrow transplant consideration One of the following, before transplant and once after transplant: • MRI Cervical (CPT®72141), Thoracic
(CPT®72146), Lumbar spine (CPT®72148), and Pelvis (CPT®72195) without contrast
• MRI Cervical (CPT®72156), Thoracic (CPT®72157), Lumbar spine (CPT®72158), and Pelvis (CPT®72197) without and with contrast
Any of the following: • MGUS disease with signs/symptoms
or lab studies suggesting progression. • Negative PET will allow change in
management from active to maintenance treatment or surveillance.
• Determine additional therapies in refractory disease or non-secretory disease**. These requests will be forwarded for Medical Director review.
One of the following: • PET/CT (CPT® 78815 or 78816) • MRI Cervical (CPT®72141), Thoracic
(CPT®72146), Lumbar spine (CPT®72148), and Pelvis (CPT®72195) without contrast
• MRI Cervical (CPT®72156), Thoracic (CPT®72157), Lumbar spine (CPT®72158), and Pelvis (CPT®72197) without and with contrast
• MRI Bone Marrow Blood Supply (CPT®77084)
Practice note: Routine imaging is not recommended to assess response to therapy for myeloma patients. Response is determined by monitoring urine and serum protein values. PET scans have
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not been shown significantly alter therapeutic decisions and may only provide prognostic information.
**Non-secretory myeloma patients do not secret any immunoglobulin proteins. This is a rare form of the disease that occurs in less than 5% of myeloma patients. Imaging to monitor may be considered for these specific patients.
ONC-25.4 SURVEILLANCE Indication Study
Plasmacytomas • CT contrast as requested, MRI without contrast, or MRI without and with contrast of area involved, every 6 months for 2 years, then annually
All others, including Bone Marrow Transplant
• No routine advanced imaging needed
References 1. Durie BGM, Harousseau J-L, Miguel JS et al, International uniform response criteria for multiple
myeloma, Leukemia 2006;20:1467-1473. 2.1. Kyle RA, Remstein ED, Therneau TM et al, Clinical course and prognosis of smoldering
(asymptomatic) multiple myeloma, N Engl J Med 2007;356:2582-2590. 3.2. Dimopoulos M, Terpos E, Comenzo Rl et al, International myeloma working group consensus
statement and guidelines regarding the current role of imaging techniques in the diagnosis and monitoring of multiple myeloma, Leukemia 2009;23:1545-1556.
4.3. Roberts CC, Weissman BN, Appel M et al, Metastatic Bone Disease, ACR Appropriateness Criteria® 2012;1-14.
5.4. ACR Committee on Drugs and Contrast Media, ACR Manual on Contrast Media, version 10.1, Copyright 2015 American College of Radiology, available at: http://www.acr.org/quality-safety/resources/contrast-manual.
6.5. Mulligan ME and Badros AZ, PET/CR and MR imaging in myeloma, Skeletal Radiol 2007;36:5-16.
7.6. Dimopoulos MA, Hillengrass J, Usmani S et al, Role of Magnetic Resonance Imaging in the Management of Patients with Multiple Myeloma: A Consensus Statement, J Clin Oncol 2015;33:657-664.
National Comprehensive Cancer Network®. NCCN Clinical Practice Guidelines in Oncology. Multiple myeloma. V3. 2016. Available at: www.nccn.org. Accessed June 17, 2016.
7. Dimopoulos M, Terpos E, Comenzo RL, et al. International myeloma working group consensus statement and guidelines regarding the current role of imaging techniques in the diagnosis and monitoring of multiple myeloma. Leukemia. 2009; 23(9):1545-1556.
8. Dammacco F, Rubini G, Ferrari C, Vacca A, Racanelli V. 18F-FDG PET/CT: a review of diagnostic and prognostic features in multiple myeloma and related disorders. Clin Exp Med.2015; 15(1):1-18.
9. Ferraro R, Agarwal A, Martin-Macintosh EL, Peller PJ, Subramaniam RM. MR imaging and PET/CT in diagnosis and management of multiple myeloma. Radiographics. 2015; 35(2):438-454.
10. Rajkumar SV, Kumar S. Multiple myeloma: diagnosis and treatment. Mayo Clin Proc.201691(1):101-119.
11. American Journal of Roentgenology volume 192 pages 980-996 2009 12. Mayo Clinic Proceedings volume 91 pages 101-119 2016
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ONCOLOGY IMAGING GUIDELINES
ONC-26~LEUKEMIA
ONC-26 Leukemia 26.1 General Considerations 159
26.2 Acute Leuemias 159
26.3 Chronic Myeloid Leukemias, Myelodysplastic Syndrome and Myeloproliferative Disorders 159
26.4 Chronic Lymphocytic Leukemia (CLL)/ Small Lymphocytic Lymphoma (SLL)
159
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ONCOLOGY IMAGING GUIDELINES
ONC-26~LEUKEMIA
ONC-26.1 General Considerations • PET imaging is considered investigational and experimental for all indications in
acute lymphoblastic leukemia, acute myeloid leukemia, and chronic myeloid leukemia.
ONC-26.2 Acute Leukemias • Imaging indications for acute lymphoblastic leukemia in adult patients are identical to
those for pediatric patients. See PEDONC-3.2 Acute Lymphoblastic Leukemia (ALL) for imaging guidelines.
• Imaging indications for acute myeloid leukemia in adult patients are identical to those for pediatric patients. See PEDONC-3.3 Acute Myeloid Leukemia (AML) for imaging guidelines.
ONC-26.3 Chronic Myeloid Leukemias, Myelodysplastic Syndrome and Myeloproliferative Disorders Routine advanced imaging is not indicated in the evaluation and management of
chronic myeloid leukemias, myelodysplastic syndromes, or myeloproliferative disorders in the absence of specific localizing clinical symptoms or clearance for hematopoietic stem cell transplantation. See ONC-29~Hematopoietic Stem Cell Transplantation for imaging guidelines related to transplant. . See ONC-26.3 for requests for imaging to evaluate splenomegaly.
ONC-26.4 Chronic Lymphocytic Leukemia (CLL)/Small Lymphocytic Lymphoma (SLL) PET imaging is not indicated in the evaluation of CLL/SLL with the exception of
suspected Richter’s transformation (see Suspected transformation, below)
Phase of Therapy Imaging Studies Initial Staging/Diagnosis Any or all of the following may be approved:
• CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) Treatment Response • For patients with bulky nodal disease at
diagnosis, CT with contrast of previously involved area(s) every 2 cycles of therapy
• Routine imaging is not indicated for patients
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without bulky nodal disease at diagnosis End of Therapy Evaluation • For patients with bulky nodal disease at
diagnosis, CT with contrast of previously involved area(s)
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved area(s)
Suspected transformation (Richter’s) from a low grade lymphoma to a more aggressive type based on one or more of the following:
• New B symptoms • Rapidly growing lymph
nodes • Extranodal disease develops • Significant recent rise in LDH
above normal range
• PET/CT (CPT®78815)
Surveillance • For patients with bulky nodal disease at diagnosis, every 6 months for two years, then annually:
o CT Chest with contrast (CPT® 71260) o CT Abdomen/Pelvis with contrast (CPT®
74177) o CT with contrast of previously involved
area(s) • Routine imaging is not indicated for patients
without bulky nodal disease at diagnosis
Reference 1. Blum KA, Young D, Broering S et al, Computed Tomography Scans Do Not Improve the Predictive
Power of 1996 National Cancer Institute-Sponsored Working Group Chronic Lymphocytic Leukemia Response Criteria, J Clin Oncol 2007;25:5624-562Conte MJ, Bowen DA, Wiseman GA, et al. Use of positron emission tomography-computed tomography in the management of patients with chronic lymphocytic leukemia/small lymphocytic lymphoma. Leuk Lymphoma. 2014;55(9):2079-2084.
2. Mauro FR, Chauvie S, Paoloni F, et al. Diagnostic and prognostic role of PET/CT in patients with chronic lymphocytic leukemia and progressive disease. Leukemia. 2015; 29(6):1360-1365.
3. Nabhan C, Rosen ST. Chronic lymphocytic leukemia: a clinical review. JAMA. 2014; 312(21):2265-2276.
1.4. Patnaik MM, Tefferi A. Chronic myelomonocytic leukemia: focus on clinical practice. Mayo Clin Proc.2016; 91(2):259-272.
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ONCOLOGY IMAGING GUIDELINES
ONC-27~NON-HODGKIN LYMPHOMAS
ONC-27 Non-Hodgkin Lymphomas 27.1 General Considerations 162
27.2 Diffuse Large B Cellymphoma (DLBCL) 163
27.3 Follicular Lymphoma 164
27.4 Marginal Zone Lymphomas 165
27.5 Mantle Cell Lymphoma 166
27.6 Burkitt's Lymphomas 167
27.7 Lymphoblastic Lymphomas 168
27.8 Cutaneous Lymphomas 168
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ONCOLOGY IMAGING GUIDELINES
ONC-27~NON-HODGKIN LYMPHOMAS
See ONC 31.11 for guidelines covering Castleman’s disease.
See ONC-26.4~ Chronic Lymphocytic Leukemia (CLL)/Small Lymphocytic Lymphoma (SLL) for guidelines covering Chronic Lymphocytic Leukemia (CLL)/Small Lymphocytic Lymphoma (SLL).
ONC-27.1 GENERAL CONSIDERATIONS Lymphoma is often suspected when patients have bulky lymphadenopathy,
hepatomegaly, splenomegaly, or abnormalities in white blood cell, red blood cell, or platelet counts
o In addition to the above, the presence or absence of systemic symptoms (fever, drenching night sweats, and unintended weight loss of >10%, called “B symptoms”) further raises suspicion for lymphoma
All CT imaging recommended in this section refers to CT with contrast only. o Noncontrast CT imaging has not been shown to be adequatenecessary in the
management of pediatric lymphomas o Given the limited utility of noncontrast CT imaging in lymphomas, MRI
without OR without and with contrast is recommended in place of CT for patients who cannot tolerate CT contrast due to allergy or impaired renal function
CT Neck with contrast (CPT® 70491) is indicated for patients with signs or symptoms of disease involving the neck
o Routine advanced imaging of the neck in patients without clinical signs of neck involvement is not indicated
MRI Brain without and with contrast (CPT® 70553) is indicated for patients with signs or symptoms suggesting brain metastases. See ONC-1.1 Key Principles.
o Routine advanced imaging of the brain in patients without clinical signs of neck involvement is not indicated
Patients with AIDS-related lymphoma should be imaging according to the primary lymphoma histology
Bone scan is inferior to MRI for evaluation of known or suspected bone metastases in lymphoma. MRI without and with contrast of symptomatic or previously involved bony areas can be approved in known lymphoma patients without prior plain x-ray or bone scan evaluation.
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ONC-27.2 DIFFUSE LARGE B CELL LYMPHOMA (DLBCL) • Grey zone lymphomas, primary mediastinal B cell lymphomas, and Grade 3 (high)
follicular lymphoma should also be imaged according to these guidelines • Post-transplant lymphoproliferative disorder (PTLD) or viral-associated
lymphoproliferative disorder can rarely occur following solid organ or hematopoietic stem cell transplantation, or in primary immunodeficiency. These disorders may be treated similarly to high grade NHL when altering immunosuppressive regimens is unsuccessful, are highly FDG-avid, and should be imaged according to this section.
Phase of Therapy Imaging Studies Initial Staging/Diagnosis Any or all of the following may be approved:
• PET/CT (CPT® 78815 or 78816) • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177)
Treatment Response Any or all of the following may be approved every 2 cycles of therapy: • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
End of cChemotherapy and/or rRadiation tTherapyTherapy Evaluation
Any or all of the following may be approved: • PET/CT (CPT® 78815 or 78816) may be
approved at the end of chemo and again at the end of radiation
• CT with contrast of previously involved area(s)
Suspected or Biopsy-Confirmed Recurrence
Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
Surveillance • Stage I and II: o No routine advanced imaging indicated
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• Stage III and IV: o CT with contrast of previously involved
area(s) every 6 months for two years, then no further routine advanced imaging
ONC-27.3 FOLLICULAR LYMPHOMA This section applies to follicular lymphomas with WHO grade of 1(low) or 2
(intermediate). Grade 3 (high) follicular lymphomas should be imaged according to ONC-27.2 Diffuse Large B Cell Lymphoma
Phase of Therapy Imaging Studies Initial Staging/Diagnosis Any or all of the following may be approved:
• CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • PET/CT (CPT® 78815 or 78816) can be
approved if XRT is being considered for stage I or II disease
Treatment Response • CT with contrast of previously involved area(s) every 2 cycles of therapy
End of Therapy Evaluation One of the following may be approved: • CT with contrast of previously involved
area(s) • PET/CT (CPT® 78815 or 78816)
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
Suspected transformation (Richter’s) from a low grade lymphoma to a more aggressive type based on one or more of the following:
• New B symptoms • Rapidly growing lymph nodes • Extranodal disease develops
• PET/CT (CPT®78815)
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• Significant recent rise in LDH above normal range
Surveillance For all stages, every 6 months for two years, then annually: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
ONC-27.4 Marginal Zone Lymphomas • MALT lymphomas in any location should also be imaged according to these
guidelines
Phase of Therapy Imaging Studies Initial Staging/Diagnosis Any or all of the following may be approved:
• CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • PET/CT (CPT® 78815 or 78816) can be
approved if XRT is being considered for stage I or II disease
Treatment Response • CT with contrast of previously involved area(s) every 2 cycles of therapy
End of Therapy Evaluation One of the following may be approved: • CT with contrast of previously involved area(s) • PET/CT (CPT® 78815 or 78816)
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
Surveillance • For any stage nodal marginal zone lymphoma or stage III or IV marginal zone lymphoma, the
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following is indicated every 6 months for two years, then annually:
o CT Chest with contrast (CPT® 71260) o CT Abdomen/Pelvis with contrast (CPT®
74177) o CT with contrast of previously involved
area(s) o Requests for PET/CT can be considered
in rare circumstances. These cases should be forwarded for Medical Director review.
• All other patients: o No routine advanced imaging indicated
ONC-27.5 Mantle Cell Lymphoma
Phase of Therapy Imaging Studies Initial Staging/Diagnosis Any or all of the following may be approved:
• CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • PET/CT (CPT® 78815 or 78816) can be
approved if XRT is being considered for stage I or II disease
Treatment Response • CT with contrast of previously involved area(s) every 2 cycles of therapy
• Requests for PET/CT can be considered in rare circumstances; these cases should be forwarded for Medical Director review
End of Therapy Evaluation One of the following may be approved: • CT with contrast of previously involved
area(s) • PET/CT (CPT® 78815 or 78816)
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
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• Requests for PET/CT can be considered in rare circumstances. These cases should be forwarded for Medical Director review.
Surveillance All Stages of Disease: • No routine advanced imaging indicated
ONC-27.6 Burkitt’s Lymphomas
Phase of Therapy Imaging Studies Initial Staging/Diagnosis Any or all of the following may be approved:
• PET/CT (CPT® 78815 or 78816) • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177)
Treatment Response • CT with contrast of previously involved area(s) every 2 cycles of therapy
• Requests for PET/CT can be considered in rare circumstances. These cases should be forwarded for Medical Director review.
End of Therapy Evaluation Any or all of the following may be approved: • PET/CT (CPT® 78815 or 78816) may be
approved at the end of chemo and again at the end of radiation
• CT with contrast of previously involved area(s)
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
Surveillance All Stages of Disease: • No routine advanced imaging indicated
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ONC-27.7 Lymphoblastic Lymphomas • Patients with lymphoblastic lymphoma (even those with bulky nodal disease) are
treated using the leukemia treatment plan appropriate to the cell type (B or T cell). Imaging indications in adult patients are identical to those for pediatric patients. See PEDONC-3.2 Acute Lymphoblastic Leukemia (ALL) for imaging guidelines.
ONC-27.8 Cutaneous Lymphomas • Includes Primary Cutaneous B Cell Lymphomas, Peripheral T-Cell
Lymphomas, Mycosis Fungoides/Sézary Syndrome, Primary Cutaneous CD30+T Cell Lymphoproliferative Disorders
Phase of Therapy Imaging Studies
Initial Staging/Diagnosis
Any or all of the following may be approved: • PET/CT (CPT® 78815 or 78816) • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177)
Treatment Response • CT with contrast of previously involved area(s) every 2 cycles of therapy
• Requests for PET/CT can be considered in rare circumstances; these cases should be forwarded for Medical Director review
End of Therapy Evaluation Any or all of the following may be approved: • PET/CT (CPT® 78815 or 78816) may be
approved at the end of chemo and again at the end of radiation
• CT with contrast of previously involved area(s)
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be
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forwarded for Medical Director review. Surveillance • Stage I and II:
o No routine advanced imaging indicated
• Stage III and IV: o CT with contrast of previously involved
area(s) every 6 months for two years, then no further routine advanced imaging
References 1. Cheson BD, Fisher RI, Barrington SF et al, Recommendations for Initial Evaluation, Staging, and
Response Assessment for Hodgkin and Non-Hodgkin Lymphoma: The Lugano Classification, J Clin Oncol 2014;32:3059-3067.
2. Barrington SF, Mikhaeel NG, Kostakoglu L et al, Role of Imaging in the Staging and Response Assessment of Lymphoma: Consensus of the International Conference on Malignant Lymphomas Imaging Working Group, J Clin Oncol 2014;32:3048-3058.
3. Juweid ME, Stroobants S, Hoekstra OS et al, Use of Positron Emission Tomography for Response Assessment of Lymphoma: Consensus of the Imaging Subcommittee of International Harmonization Project in Lymphoma, J Clin Oncol 2007;25:571-578.
4. Cheson BD, Pfistner B, Juweid ME et al, Revised Response Criteria for Malignant Lymphoma, J Clin Oncol 2007;25:579-586.
5.3. Thompson CA, Ghesquieres H, Maurer MJ et al, Utility of Routine Post-Therapy Surveillance Imaging in Diffuse Large B-Cell Lymphoma, J Clin Oncol 2014;32:3506-3512.
6.4. El-Galaly TC, Jakobsen LH, Hutchings M et al, Routine Imaging for Diffuse Large B-Cell Lymphoma in First Complete Remission Does Not Improve Post-Treatment Survival: A Danish-Swedish Population-Based Study., J Clin Oncol. 2015;33:3993-3998.
7.5. Huntington SF, Svoboda J, and Doshi JA, Cost-Effectiveness Analysis of Routine Surveillance Imaging of Patients With Diffuse Large B-Cell Lymphoma in First Remission. , J Clin Onco.l 2015;33:1467-1474.
6. Mamot C, Klingbiel D, Hitz F et al, Final results of a Prospective Evaluation of the Predictive Value of Interim Positron Emission Tomography in Patients With Diffuse Large B-Cell Lymphoma Treated With R-CHOP-14 (SAKK 38/07), J Clin Oncol 2015;33:2523-2529.
7. Mylam KJ, Nielsen AL, Pedersen LM, Hutchings M. Fluorine-18-fluorodeoxyglucose positron emission tomography in diffuse large B-cell lymphoma. PET Clin. 2014; 9(4):443-455.
8. Tirumani SH, LaCasce AS, Jacene HA. Role of 2-deoxy-2-[18F]-fluoro-d-glucose-PET/computed tomography in lymphoma. PET Clin.2015;(2):207-225.
9. Avivi I, Zilberlicht A, DAann EJ, et al. Strikingly high false positivity of surveillance FDG-PET/CT scanning among pateintspatients with diffuse large cell lymphoma in the rituximab era. Am J Hematol. 2013;88(5):400-405.
10. British Journal of Cancer volume 105 pages 312-317 2013
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ONCOLOGY IMAGING GUIDELINES
ONC-28~Hodgkin Lymphomas
ONC-28 Hodgkin Lymphomas 28.1 General Considerations 171
28.2 Classical Hodgkin Lymphoma 172
28.3 Nodular Lymphocyte-Predominant Hodgkin Lymphoma 173
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ONC-28~Hodgkin Lymphomas ONC-28.1 General Considerations Lymphoma is often suspected when patients have bulky lymphadenopathy,
hepatomegaly, splenomegaly, or abnormalities in white blood cell, red blood cell, or platelet counts
o In addition to the above, the presence or absence of systemic symptoms (fever, drenching night sweats, and unintended weight loss of >10%, called “B symptoms”) further raises suspicion for lymphoma
CT Neck with contrast (CPT® 70491) is indicated for patients with signs or symptoms of disease involving the neck
o Routine advanced imaging of the neck in patients without clinical signs of neck involvement is not indicated
MRI Brain without and with contrast (CPT® 70553) is indicated for patients with signs or symptoms suggesting brain metastases. See ONC-1.1 Key Principles.
o Routine advanced imaging of the brain in patients without clinical signs of brainneck involvement is not indicated
Patients with AIDS-related lymphoma should be imaging according to the primary lymphoma histology
Bone scan is inferior to MRI for evaluation of known or suspected bone metastases in lymphoma. MRI without and with contrast of symptomatic or previously involved bony areas can be approved in known lymphoma patients without prior plain x-ray or bone scan evaluation.
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ONC 28.2 Classical Hodgkin Lymphoma Stage Imaging Study
Initial Staging/Diagnosis Any or all of the following may be approved: • PET/CT (CPT® 78815 or 78816) • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) Treatment Response • PET/CT (CPT® 78815 or 78816) as frequently
as every 2 cycles o CT with contrast of previously involved
areas can be approved as a substitute for PET/CT for Stage IA or IIA
End of Therapy Evaluation • PET/CT (CPT® 78815 or 78816) >12 weeks after the end of radiation therapy
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
Surveillance Any or all of the following may be approved once during the first 12 months after completion of therapy: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) After completion of therapy: CT Chest with
contrast (CPT 71260) and CT Abdomen and Pelvis with contrast (CPT 74177)
• CT with contrast of previously involved area(s) at 6, 12, and 24 months.
Any or all of the following may be approved at 6, 12, and 24 months after completion of therapy: • CT Chest with contrast (CPT® 71260)
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• CT Abdomen/Pelvis with contrast (CPT® 74177)
• CT with contrast of previously involved area(s)
In addition to the above studies: • A single follow-up PET/CT may be approved
>12 weeks after the end of radiation therapy if end of therapy PET/CT report documents Deauville 4 or 5 FDG avidity
ONC 28.3 Nodular Lymphocyte-Predominant Hodgkin Lymphoma
Stage Imaging Study Initial Staging/Diagnosis Any or all of the following may be approved:
• PET/CT (CPT® 78815 or 78816) • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) Treatment Response • Patients treated with surgery alone go directly
to Surveillance for additional imaging guidelines
• Patients treated with radiotherapy alone go directly to End of Therapy Evaluation for additional imaging guidelines
• PET/CT (CPT® 78815 or 78816) as frequently as every 2 cycles
o CT with contrast of previously involved areas can be approved as a substitute for PET/CT for Stage IA or IIA
End of Therapy Evaluation • PET/CT (CPT® 78815 or 78816) >12 weeks after the end of radiation therapy
Suspected Recurrence Any or all of the following may be approved: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) • Requests for PET/CT can be considered in rare
circumstances. These cases should be forwarded for Medical Director review.
Suspected transformation • PET/CT (CPT®78815)
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(Richter’s) from a low grade lymphoma to a more aggressive type based on one or more of the following:
• New B symptoms • Rapidly growing lymph nodes • Extranodal disease develops
Significant recent rise in LDH above normal range Surveillance Any or all of the following may be approved at 6,
12, and 24 months after completion of therapy: • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) Any or all of the following may be approved once during the first 12 months after completion of therapy:After the completion of therapy • CT Chest with contrast (CPT® 71260) • CT Abdomen/Pelvis with contrast (CPT®
74177) • CT with contrast of previously involved
area(s) at 6, 12, and 24 months In addition to the above studies: • A single follow-up PET/CT may be approved
>12 weeks after the end of radiation therapy if end of therapy PET/CT report documents Deauville 4 or 5 FDG avidity
References 1. Cheson BD, Fisher RI, Barrington SF et al, Recommendations for Initial Evaluation, Staging, and
Response Assessment for Hodgkin and Non-Hodgkin Lymphoma: The Lugano Classification, J Clin Oncol 2014;32:3059-3067.
2. Barrington SF, Mikhaeel NG, Kostakoglu L et al, Role of Imaging in the Staging and Response Assessment of Lymphoma: Consensus of the International Conference on Malignant Lymphomas Imaging Working Group, J Clin Oncol 2014;32:3048-3058.
3. Juweid ME, Stroobants S, Hoekstra OS et al, Use of Positron Emission Tomography for Response Assessment of Lymphoma: Consensus of the Imaging Subcommittee of International Harmonization Project in Lymphoma, J Clin Oncol 2007;25:571-578.
4. Cheson BD, Pfistner B, Juweid ME et al, Revised Response Criteria for Malignant Lymphoma, J Clin Oncol 2007;25:579-586.
5.3. Pingali SR, Jewell SW, Havlat L et al, Limited utility of routine surveillance imaging for
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classical Hodgkin lymphoma patients in first complete remission, Cancer 2014;120:2122-2129. 6.4. Ha CS, Hodgson DC, Advani R et al, Follow-Up of Hodgkin Lymphoma, ACR Appropriateness
Criteria® 2014;1-16. 5. Picardi M, Pugliese N, Cirillo M et al, Advanced-stage Hodgkin Lymphoma: US/Chest Radiography
for Detection of Relapse in patients in First Complete Remission—A Randomized Trial of Routine Surveillance Imaging Procedures, Radiology 2014;272:262-274.
6. Gallamini A, Kostakoglu L. Interim FDG-PET in Hodgkin lymphoma: a compass of a safe navigation in clinical trials? Blood. 2012; 120(25):4913-4920.
7. Biggi A, Gallamini A, Chauvie S, et al. International validation study for interim PET in ABVD-treated, advanced-stage Hodgkin lymphoma: interpretation criteria and concordance rate among reviewers. J Nucl Med.2013; 54(5):683-690.
8. Gallamini A, Barrington SF, Biggi, et al. The predictive role of interim positron emission tomography for Hodgkin lymphoma treatment outcome is confirmed using the interpretation criteria of the Deauville five-point scale. Haematologica. 2014; 99(6):1107-1113.
9. El-Galaly TC, Mylam KJ, Brown P, et al. Positron emission tomography/computed tomography surveillance in patients with Hodgkin lymphoma in first remission has a low positive predictive value and high costs. Haematologica. 2012; 97(6):931-936.
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ONCOLOGY IMAGING GUIDELINES
ONC-29~Hematopoietic Stem Cell Transplantation
ONC-29.1 General Considerations for Stem Cell Transplant Terminology: A number of terms will be used to describe the transplant process of using chemotherapy ± radiation to ablate the recipient’s bone marrow stores, depending on the source of the hematopoietic stem cells and the indication, including bone marrow transplant (BMT), stem cell transplant (SCT), and hematopoietic stem cell transplant (HSCT). Transplant types: Allogeneic (“allo”): The donor and recipient are different people, and there are multiple types depending on the source of the stem cells and degree of match between donor and recipient. This is most commonly used in diseases originating in the hematopoietic system, such as leukemias and lymphomas, and bone marrow failure syndromes or metabolic disorders. Common types are:
o Matched sibling donor (MSD or MRD): Donor and recipient are full siblings and HLA-matched
o Matched unrelated donor (MUD): Donor and recipient are HLA matched but not related to each other
o Cord blood: Donor stem cells come from frozen umbilical cord blood not related to the recipient, sometimes from multiple different donors at once
o Haploidentical transplant (haplo): Donor is a half-HLA match to the recipient, usually a parent
Autologous (“auto”): The donor and recipient are the same person, as with allogeneic there are multiple types of this transplant. Transplant is really a misnomer since the process involves delivery of high dose chemotherapy that is ablative to the bone marrow, requiring an infusion of stem cells to allow marrow recovery. As such, is more correctly called a rescue. Rescue is most commonly used for metastatic disease involving the hematopoietic system.
Allo HSCT results in a much greater degree of immunosuppression than auto because of the need to allow the new immune system to chimerize with the recipient’s body. Immune reconstitution commonly takes more than a year for patients who receive allo HSCT, and patients remain at high risk for invasive infections until that has occurred. Pre-Transplant Imaging in HSCT: This imaging generally takes place within 30 days of transplant, and involves a reassessment of the patient’s disease status as well as infectious disease clearance.
o For oncology indications, imaging listed in MSI GL under restaging, end of therapy, or treatment response can be approved as pre-transplant imaging, including PET imaging.
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• PET should not be approved for transplant in diseases in which EviCore Guidelines do not support the use of PET imaging during initial workup and treatment (such as myeloma**)
• Myeloma PET requests should be forwarded for Medical Director Review o CT of the sinuses, neck, chest, and/or abdomen/pelvis (contrast as requested) is
commonly requested in the immediate pre-transplant period and should be approved as requested. These studies are necessary within 30 days of transplant, and frequently have to be repeated if the transplant is delayed for any reason.
o Nuclear renal function study (CPT® 78708 or 78709) to ensure adequate renal function
o Echocardiogram (CPT®93306) is routinely indicated to ensure adequate cardiac function to proceed with transplant. MUGA scan (CPT®78472) may be indicated in specific circumstances. See: CD-3.5 MUGA Study – Oncologic Indications for more detail.
Post-Transplant Imaging in HSCT: There are many common complications from HSCT, including infection, graft versus host disease, hepatic sinusoidal obstruction syndrome, restrictive lung disease, among others. Site-specific imaging requests to evaluate known or suspected HSCT complications should generally be approved. Disease response generally takes place at ~Day +30 (autos and some allos) or ~Day +100 (allos) post-transplant.
o For oncology indications, imaging listed in disease-specific guidelines under restaging, end of therapy, or treatment response can be approved as post-transplant imaging, including PET imaging. • PET should not be approved in diseases where MSI GL do not support the use
of PET imaging during initial workup and treatment (such as myeloma**) • If PET is negative at Day +30, repeat PET at Day +100 is not indicated unless
conventional imaging is inconclusive. o Patients receiving tandem auto transplants (2-4 autos back-to-back, spaced 6-8
weeks apart) can have this imaging completed following each separate transplant o Myeloma PET requests should be forwarded for Medical Director Review
Imaging after disease response has been completed (~Day +100 for allos and ~Day +30 for autos) should follow eviCore surveillance guidelines for the specific disease unless the patient is receiving ongoing anticancer therapy. **PET can be considered in myeloma patients who are non-secretors of immunoglobulin proteins (non-secretory disease is rare and accounts for less than 5% of myeloma cases)
CT Chest without contrast (CPT® 71250) is indicated for patients with bronchiolitis obliterans with organizing pneumonia (BOOP) for surveillance and evaluation of acute changes
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ONC-30~Medical Conditions with Cancer in the Differential Diagnosis
ONC-30 Medical Conditions with Cancer in the Differential Diagnosis 30.1 Fever of Unknown Origin (FUO) 179
30.2 Unexplained Weight Loss 180
30.3 Paraneoplastic Syndromes 181
30.4 Sarcoidosis 153
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ONCOLOGY IMAGING GUIDELINES
ONC-30~Medical Conditions with Cancer in the Differential Diagnosis
ONC-30.1 Fever of Unknown Origin (FUO) Indication Imaging Study
In addition to physical examination, based on suspicion location, one can consider:
• Chest X-ray, Echocardiogram (CPT® 93306), Abdominal ultrasound (CPT®76700) and /or MRI Brain without and with contrast (CPT®70553)
Above studies (including PE/ENT exam, pelvic exam, and DRE with laboratory studies) have failed to demonstrate site of infection
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
• Radiopharmaceutical Nuclear Imaging scan (CPT®78805, 78806, or 78807)
“B” symptoms See ONC-27~Lymphomas Any CNS sign/symptom accompanied by fever
• MRI Brain without and with contrast (CPT®70553)
All patients • PET is not indicated in the work-up of patients with FUO
NOTE: FUO is defined as a persistent fever ≥101oF and ≥ 3 weeks with unidentified cause. While fever is a classic “B” symptom of advanced lymphoma, a cancer- related fever presenting in isolation without any other signs or symptoms of neoplastic disease is rare. Careful head and neck and pelvic examination, to include digital rectal exam, must be performed. These areas can harbor occult sources of fever and are frequently overlooked when multiple specialists become involved in a patient’s care. Chest X-ray and repeated battery of laboratory tests listed in most medical textbooks are the initial diagnostic procedures of choice. Any abnormalities found on these studies may focus appropriate imaging decisions, such as:
o Echocardiogram may reveal cardiac valve vegetations; o Abdominal ultrasound (CPT®76700) should be performed to evaluate pancreas,
liver, spleen, and gallbladder; o If all tests listed above remain non-contributory, then CT scans outlined above may
be considered.
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ONC-30.2 Unexplained Weight Loss Indeterminate Findings Imaging Study
Evaluations listed below do not identify cause of weight loss (for smokers, see below)
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
Potential causes of weight lost to consider Unexplained weight loss from neoplastic disease is very common in end-stage cancer; however, cancer-related weight loss presenting as the sole symptom without any other signs or symptoms related to the cancer is exceedingly rare. Careful attention to symptoms related to dysphagia, early satiety, and food intake may indicate a problem with the upper GI system. Endoscopy and/or barium swallow, and a detailed examination of the oral cavity, pharynx, and upper esophagus should be performed. Panhypopituitarism or hyperthyroidism may give rise to weight loss. A thorough endocrine evaluation, including tests for TSH and ACTH, is indicated. Any abnormality of pituitary hormones may indicate a need for MRI of the sella turcica without and with contrast (CPT®70553). Elevated thyroglobulin level may indicate a need for nuclear thyroid scan or thyroid ultrasound (CPT®76536). Renal, hepatic, and cardiac pathologies must be carefully ruled out using lab tests and imaging studies such as echocardiogram (CPT®93306) and abdominal ultrasound (CPT®76700). Weight loss associated with anemia may suggest occult GI bleeding and/or hypogonadism. Serial tests for heme in stools and endocrine evaluations for gonadal function may be helpful. Depression and early dementia may be causes of weight loss. Detailed neurological examination should be performed. When considering such etiologies, care must be taken to consider that the weight loss may be intentional but not disclosed for reasons of secondary gain. Unintentional weight loss may be an infrequent side effect of commonly prescribed medications and over-the-counter medications. Careful history taking is recommended. For non-smokers, chest X-ray should be performed. For smokers, CT chest with contrast (CPT® 71260) can be approved.
PET is not appropriate in the work-up of patients with unexplained weight loss.
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ONC-30.3 Paraneoplastic Syndromes Indication Imaging Study
Smoker, past or present • CT Chest with contrast (CPT®71260) • Abdominal (CPT®76700) and pelvic (CPT®
76856) ultrasound Non-smokers • Abdominal ultrasound (CPT®76700) and
pelvic (CPT® 76536) ultrasound • chest Chest X-ray; • mammogram Mammogram and pelvic
exam with transvaginal US (CPT®76830) in women
If above evaluations are negative • CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
o CT may be repeated annually for 2 years post initial imaging for diagnosis of paraneoplastic syndrome
Any of the following: • Abnormality on conventional
imaging difficult to biopsy • Inconclusive conventional imaging
• PET/CT (CPT® 78815 or 78816)
For elevated tumor markers noted on laboratory testing in a patient with no history of cancer, follow guidelines for paraneoplastic syndrome. In addition thyroid US is recommended for elevated CEA, and upper/lower endoscopy is recommended for elevated CEA or CA 19-9.
See also: PN-6 Muscle Disorders in the Peripheral Nerve Disorders Guidelines See also: ONC-25 Multiple Myeloma and Plasmacytomas for evaluation of possible multiple myeloma.
Practice Note: Paraneoplastic syndromes are metabolic and neuromuscular disturbances. These syndromes are not directly related to a tumor or to metastatic disease. Patients with a paraneoplastic syndrome should be evaluated initially with chest X-ray and complete metabolic panel. There may be a lead time between initial finding of a possible paraneoplastic syndrome and appearance of the cancer with imaging. Limited studies suggest annual imaging for 2 years after diagnosis of possible paraneoplastic syndrome may detect cancer, however benefit after 2 years is not well documented.
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Almost any tumor can give rise to these syndromes, but they are most commonly associated with lung cancer (especially small cell lung cancer). The following are the most common symptoms of paraneoplastic syndromes known to arise from various malignancies, but especially found in patients with lung cancer:
• Hypertrophic Pulmonary Osteoarthropathy: Often presents as a constellation of rheumatoid-like polyarthritis, periostitis of long bones, and clubbing of fingers and toes
• Amyloidosis • Hypercalcemia • Hypophosphatemia • Cushing’s Syndrome • Somatostatinoma syndrome (vomiting, abdominal pain, diarrhea, cholelithiasis) • Syndrome of inappropriate antidiuretic hormone secretion (SIADH) • Polymyositis/dermatomyositis • Opsoclonus • Paraneoplastic sensory neuropathy • Subacute cerebellar degeneration • Eaton-Lambert syndrome (a myasthenia-like syndrome) • Second event of unprovoked thrombosis • Disseminated Intravascular Coagulation • Migratory thrombophlebitis • Polycythemia • Chronic leukocytosis and/or thrombocytosis
Practice note: Imaging for malignancy is not indicated for first episode of unprovoked DVT/VTE but may be considered after a second unprovoked DVT/PE in the setting of a negative workup for inherited thrombophilia and antiphospholipid syndrome. . ONC-30.4 Sarcoidosis
Indication Imaging Study Chest X-ray is not diagnostic • CT Chest with contrast (CPT®71260) All patients • Insufficient data to support the routine use of
PET in this disease
Also see CH-15~Sarcoid in the Chest Imaging Guidelines.References 1. Carrier M, Lazo-Langner A, Shivakumar S et al, Screening for Occult Cancer in Unprovoked
Venous Thromboembolism, N Engl J Med 2015;373:697-704. 2. Callen JP and Wortmann RL, Dermatomyositis, Clin Dermatol 2006;24:363-373. 3. Bach PB, Niewoehner DE, and Black WC, Screening for Lung Cancer, Chest 2003;123:97S-104S.
Fotopoulos SC and Kyritsis AP, Paraneoplastic Neurological Syndromes and the Role of PET Imaging, Oncology 2010;78:150–156.
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4. Jones KC, Benseler SM, and Moharir M, Anti-NMDA Receptor Encephalitis, Neuroimaging Clin N Am 2013;309-320.
Mostard RL, van Kroonenburgh MJ, Drent M. The role of the PET scan in the management of sarcoidosis. Curr Opin Pulm Med. 2013; 19(5):538-544.
5. Annals of the New York Academy of Science volumvolume 58 pages 1228=1246 2011 6. Schramm N, Rominger A, Schmidt C, et al. Detection of underlying malignancy in patients with
paraneoplastic neurological syndromes: comparison of 18F-FDG PET/CT and contrast-enhanced CT. Eur J Nucl Med Mol Imaging. 2013; 40(7):1014-1024.
7. Qiu L, Chen Y. The role of 18F-FDG PET or PET/CT in the detection of fever of unknown origin. Eur J Radiol. 2012; 81(11):3524-3529.
8. Pelosof LC and Gerber DE, Paraneoplastic Syndromes: An Approach to Diagnosis and Treatment, Mayo Clin Proc 2010;85:838-854.
9. Lancet Oncology volume 17 pages 793-799 2016 10. Cochrane Database of Systematic Reviews. V6. 2015.
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ONCOLOGY IMAGING GUIDELINES
ONC-31~Metastatic Cancer, Carcinoma of Unknown Primary Site, and Other Types of Cancer
ONC-31 Metastatic Cancer; Carcinomas of Unknown Primary Site & Other Types of Cancer
31.1 Lung Metastases 185
31.2 Liver Metastases 186
31.3 Brain Metastases 187
31.4 Adrenal Gland Metastases 188
31.5 Bone (including Vertebral) Metastases 188
31.6 Spinal Cord Compression 189
31.7 Carcinoma of Unknown Primary Site 190
31.8 Extrathoracic Small Cell Carcinoma 191
31.9 Primary Peritoneal Mesothelioma 192
31.10 Kaposi’s Sarcoma 192
31.11 Castleman’s Disease (unicentric and multicentric) 192
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ONCOLOGY IMAGING GUIDELINES
ONC-31~Metastatic Cancer, Carcinoma of Unknown Primary Site, & Other Types of Cancer
• Guideline sections ONC-31.1-ONC-31.5 should only be used for patients with metastatic cancer in the following circumstances:
o The primary diagnosis section does not address a particular metastatic site that is addressed in these sections
o The cancer type is rare and does not have its own diagnosis-specific imaging guidelines
ONC-31.1 Lung Metastases Site of Metastases Imaging Study(ies)
New or worsening signs or symptoms suggestive of metastatic lung involvement or new or worsening chest X-ray abnormality
• CT Chest with contrast (CPT®71260) o CT Chest without contrast
(CPT®71250) can be approved if there is a contraindication to CT contrast or only parenchymal lesions are being evaluated
Chest wall or brachial plexus involvement • MRI Chest without and with contrast (CPT® 71552)
One of the following and no diagnosis-specific guideline regarding PET imaging: • Lung nodule(s) ≥8 mm • Confirm solitary metastasis amenable to
resection on conventional imaging
• PET/CT (CPT® 78815) o When primary cancer known, PET
request should be reviewed by primary cancer GL
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ONC-31.2 Liver Metastases Site of Metastases Imaging Study(ies)
New or worsening signs or symptoms suggestive of metastatic liver involvement or new elevation in LFTs.
• CT Abdomen with (CPT®74160) or without and with contrast (CPT®74170)
Any of the following: • Considering limited resection • Confirm first site of metastatic
failure • Inconclusive CT findings
• MRI Abdomen without and with contrast (CPT®74183)
One of the following and no diagnosis-specific guideline regarding PET imaging: • Confirm solitary metastasis
amenable to resection on conventional imaging
• LFT’s and/or tumor markers continue to rise and CT and MRI are negative
• PET/CT (CPT® 78815) o When primary cancer known, PET
request should be reviewed by primary cancer GL
Monitoring of ablated liver metastases or primary tumors
One of the following, immediately prior to ablation, 1 month post-ablation, then every 3 months: • CT Abdomen without and with contrast
(CPT®741780) • MRI Abdomen without and with contrast
(CPT®74183) • CTA Abdomen (CPT® 74175) can be
approved immediately prior to embolization
Evaluation of hepatic artery catheters for chemotherapy infusion or Chemoembolization with radioactive spheres (TheraSphere or SIR Spheres): • Nuclear medicine liver imaging (one of
CPT® 78201, 78202, 78205, 78206, 78215, or 78216)
• PET is not indicated for evaluation of ablated liver lesions
See also: ONC-1.2 for monitoring ablated malignant liver lesions
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Practice Note: Ablation of liver metastases or primary HCC may be performed utilizing chemical, chemotherapeutic, radiofrequency, or radioactive isotope. Regardless of the modality of ablation, PET is not indicated for assessing response to this mode of therapy. ONC-31.3 Brain Metastases
Site of Metastases Imaging Study(ies) Individual with cancer and signs or symptoms of CNS disease or known brain metastasis with new signs or symptoms.
• MRI Brain without and with contrast (CPT®70553)
Assess candidacy for stereotactic radiosurgical approach for brain metastases
• MRI Brain without and with contrast (CPT®70553) using thin slice cuts if not already done within 30 days
o If thin slice MRI done within 30 days and MRI needed for SRS treatment planning, planning code CPT® 76498 can be approved. These requests should be forwarded for Medical Director review.
Monitoring of brain metastases treated with surgery or radiation therapy
Post-treatment, then every 3 months for 1 year: • MRI Brain without and with contrast (CPT®70553) • PET Metabolic Brain (CPT® 78608) and MR
Spectroscopy (CPT®76390) are considered investigational and experimental for evaluation of metastatic brain cancer
Any of the following: • Solitary brain metastasis
suspected in patient with prior diagnosis of cancer and no diagnosis-specific guideline regarding PET imaging
• Brain metastases and no known primary tumor
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
• Mammography for female patients • PET/CT (CPT®78815 or 78816) is indicated for any
of the following: o Inconclusive conventional imaging o Confirm either stable systemic disease or
absence of other metastatic disease o When primary cancer known, PET request
should be reviewed by primary cancer GL
Primary brain tumors See: ONC-2~Central Nervous System Tumors
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ONC-31.4 Adrenal Gland Metastases Site of Metastases Imaging Study(ies)
Differentiate benign adrenal adenoma from metastatic disease
See AB-16~Adrenal Cortical Lesions
All of the following and no diagnosis-specific guideline regarding PET imaging • Solitary adrenal metastasis and • Primary tumor site controlled and
surgical resection or radiotherapy of an adrenal metastasis is potentially curative
• CT-directed needle biopsy (CPT®77012) or • MRI Abdomen without (CPT®74181) or
without and with contrast (CPT®74183) PET/CT (CPT® 78815) to confirm isolated lesion if conventional imaging does not reveal other metastatic disease
o When primary cancer known, PET request should be reviewed by primary cancer GL
• See also AB-16.1
ONC-31.5 Bone (including Vertebral) Metastases Site of Metastases Imaging Study(ies)
Any of the following in a patient with a current or prior malignancy: • Bone pain • Rising tumor markers • Elevated alkaline phosphatase.
• Bone scan (See ONC-1.3) supplemented by plain x-rays is the initial diagnostic imaging study of choice
Any of the following: • Any patient with stage IV cancer with
new onset back pain* • Bone scan is not feasible or readily
available • Continued suspicion despite
inconclusive or negative bone scan or other imaging modalities
• Neurological compromise • Soft tissue component suggested on
other imaging modalities or physical exam
• Differentiate neoplastic disease from Paget’s disease of Bone
Any of the following may be approved: • MRI Cervical (CPT® 72156), Thoracic
(CPT® 72157), and Lumbar spine (CPT® 72158) without and with contrast
• CT Cervical (CPT® 72127), Thoracic (CPT® 72130), and Lumbar spine (CPT® 72133) without and with contrast can be approved if MRI is contraindicated or not readily available
o CT without contrast can be approved if there is a contraindication to CT contrast
Bone pain when both bone scan and either CT or MRI are inconclusive
• 18F-FDG-PET/CT (CPT® 78815 or 78816) on a case-by-case basis
NOTE: 18F-NaF PET imaging (sodium fluoride, or “PET bone scan”) is
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investigational. See: ONC-1.1 Suspected metastatic bone disease and negative work up for myeloma
• CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) with contrast
No prior cancer history with suspected pathologic fracture on plain x-ray
See: ONC-31.7
Signs/symptoms concerning for spinal cord compression
See ONC-31.6
*Patients with Stage IV cancer with new onset back pain can forgo a bone scan (and plain films) in lieu of an MRI with and without contrast of the spine. ONC-31.6 Spinal Cord Compression
Site of Metastases Imaging Study(ies) Any of the following in a current or former cancer patient: • Any patient with stage IV cancer with
new onset back pain • New back pain in any cancer patient
persisting over two weeks • Back pain in any cancer patient that is
rapidly progressive or refractory to aggressive pain management
• Signs or symptoms of neurological compromise at the spinal cord level
• Unexpected, sudden loss of bowel or bladder control
• Sudden loss of ability to ambulate • Complete loss of pinprick sensation
corresponding to a specific vertebral level • Loss of pain at a site that had previously
been refractory to pain management
Any or all of the following may be approved: • MRI Cervical (CPT® 72156),
Thoracic (CPT® 72157), and Lumbar spine (CPT® 72158) without and with contrast
• Post myelogram CT of the Cervical (CPT® 72126), Thoracic (CPT® 72129), and Lumbar spine (CPT® 72132)
Other pain, unilateral weakness, extremity tremors, unilateral change in reflexes, and radicular symptoms suggestive of nerve root involvement but not consistent with cord compression
• MRI without and with contrast of involved spinal segment
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ONC-31.7 Carcinoma of Unknown Primary Site Site of Metastases Imaging Study(ies)
Carcinoma found in a lymph node or in an organ known not to be primary
• CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177)
• CT Neck with contrast (CPT®70491) if cervical or supraclavicular involvement
• CT with contrast or MRI without and with contrast of any other symptomatic site
• For female patients: o Diagnostic (not screening) mammogram
and full pelvic exam •o MRI Bilateral Breasts (CPT®77059) if
pathology consistent with breast primary and mammogram is inconclusive
Sebaceous carcinoma of the skin (can be associated with underlying primary malignancy)
• CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177)
• CT Neck with contrast (CPT®70491) if cervical or supraclavicular involvement
• CT with contrast or MRI without and with contrast of any other symptomatic site
Axillary adenocarcinoma or other adenocarcinoma in a woman
• CT Neck (CPT®70491), Chest (CPT®71260), and Abdomen with contrast (CPT®74160)
• CT with contrast or MRI without and with contrast of any other symptomatic site
• For female patients: •o Diagnostic (not screening) mammogram
and full pelvic exam o MRI Bilateral Breasts (CPT®77059) if
pathology consistent with breast primary and mammogram is inconclusive
Above studies have failed demonstrate site of primary
• PET/CT (CPT®78815 or 78816)
Practice Note: • Defined as carcinoma found in a lymph node or in an organ known not to be the
primary for that cell type (e.g., adenocarcinoma arising in the brain or in a neck lymph node).
• This guideline also applies to metastatic melanoma when a detailed skin and mucosal surface examination has failed to find a primary site of disease.
• This guideline also applies to a pathologic fracture that is clearly due to metastatic neoplastic disease in a patient without a previous cancer history.
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• Detailed history and physical examination, to include pelvic and rectal exams, laboratory tests, and CT as outlined above
• Patients presenting with a thoracic squamous cell carcinoma described as metastatic appearing on chest imaging, or in lymph nodes above the clavicle, should undergo a detailed head and neck examination by a clinician skilled in laryngeal and pharyngeal examinations, especially in smokers.
• Patients with suspected unknown primary based on only suspicious lytic bone lesions should be considered for serum protein electrophoresis (SPEP); urine protein electrophoresis (UPEP) and serum free light chains prior to consideration of extensive imaging
ONC-31.8 Extrathoracic Small Cell Carcinoma
Indication Imaging Study(ies) Initial staging Any or all of the following are indicated:
• CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177)
• MRI brain Brain without and with contrast (CPT®70553) should be performed for symptoms of CNS involvement and for poorly differentiated neuroendocrine cancers of the neck or extrapulmonary thorax.
• PET/CT (CPT® 78815) if no evidence of metastatic disease or conventional imaging is inconclusive for determining localized vs. distant metastatic disease
Restaging during treatment • CT Chest (CPT®71260) and Abdomen/Pelvis (CPT®74177) and any known sites of disease with contrast every 2 cycles
Restaging (suspected recurrence)
Any or all of the following are indicated: • CT Chest (CPT®71260) and Abdomen/Pelvis with
contrast (CPT®74177) • MRI brain without and with contrast (CPT®70553) • Bone scan (See ONC-1.3)
• PET imaging is generally not indicated but can be considered for rare circumstances. These requests should be forwarded for Medical Director review.
Surveillance • CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177) every 4 months for initial 2 years, then annually to year 5
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ONC-31.9 Primary Peritoneal Mesothelioma Indication Imaging Study(ies)
Initial staging • CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177)
• PET/CT (CPT® 78815) if no evidence of metastatic disease or conventional imaging is inconclusive
Recurrence/Restaging • If known prior disease, CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177)
• PET for inconclusive finding on conventional imaging Surveillance • CT Abdomen/Pelvis with contrast (CPT®74177) every 3
months for 2 years, then every year of life ONC-31.10 Kaposi’s Sarcoma
Indication Imaging Study(ies) Kaposi’s Sarcoma • Advanced imaging is not generally indicated since disease
is generally localized to skin.
• CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177) can be approved at initial diagnosis. If initial scans are negative then future imaging would be based on signs or symptoms.
ONC-31.11 Castleman’s disease (unicentric and multicentric) Indication Imaging Studies
Initial staging • Either CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177) or PET/CT (CPT®78815)
• CT Neck with contrast (CPT®70491) if cervical or supraclavicular involvement
• If CT scans utilized initially and suggests unicentric disease, and surgical resection being considered, PET/CT (CPT®78815) can be approved to confirm unicentric disease.
• If unicentric disease is surgically removed, proceed to Surveillance section.
Any of the following: • Suspected recurrence • Recurrent B symptoms • Rising LDH/IL-6/VEGF
levels
• For multicentric disease or surgically non-resected unicentric disease being treated with chemotherapy, either CT Chest (CPT®71260) and Abdomen/Pelvis with contrast (CPT®74177) or PET/CT (CPT®78815) every 2 cycles
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Surveillance • CT with contrast of involved areas no more than every 6 months up to 5 years
References 1. Gutzeit A, Antoch G, Kühl H et al, Unknown Primary Tumors: Detection with Dual-Modality
PET/CT—Initial Experience, Radiology 2005;234:227-234. Pelosi E, Pennone M, Deandreis D et al, Role of whole body positron emission tomography/computed tomography scan with 18F-fluorodeoxyglucose in patients with biopsy proven tumor metastases from unknown primary site, Q J Nucl Med Mol Imaging 2006;50:15-22.
2. Podoloff DA, Ball DW, Ben-Josef E et al, NCCN Task Force: Clinical Utility of Pet in a Variety of Tumor Types, J Natl Compr Canc Netw 2009;7:S1-23.
3. Roberts CC, Weissman BN, Appel M et al, Metastatic Bone Disease, ACR Appropriateness Criteria® 2012;1-14.
4. Uematsu T, Tuen S, Yukisawa S et al, Comparison of FDG PET and SPECT for Detection of Bone Metastases in Breast Cancer, AJR Am J Roentgenol 2005;184:1266-1273. Remer EM, Casalino DD, Bishoff JT et al, Incidentally Discovered Adrenal Mass, ACR Appropriateness Criteria® 2012;1-12.
5. Braat AJAT, Smits MLJ, Braat MNGJA et al, 90Y Hepatic Radioembolization: An Update on Current Practice and Recent Developments, J Nucl Med 2015;56:1079–1087.
6. European Journal of Medicine volume 81 pages 123-131 2010 7. Pawaskar AS, Basu S. Role of 2-fluoro-2-deoxyglucose PET/computed tomography in carcinoma of
unknown primary. PET Clin. 2015; 10(3):297-310.
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ONCOLOGY IMAGING GUIDELINES
ONC-32~Medicare Coverage Policies for PET
ONC-32 Medicare Coverage Policies for PET 32.1 Oncologic FDG PET 195
32.2 Oncologic Non-FDG PET 198
32.3 Brain PET 199
32.4 Cardiac PET 200
32.5 PET for Infection and Inflammation 201
32.6 Breast Cancer PET 201
32.7 Melanoma PET 201
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ONC-32.1 Oncologic FDG PET • The complete coverage policy is found in the Medicare National Coverage
Determinations (NCD) Manual, Section 220.6.17: (see: http://www.cms.gov/Regulations-and-Guidance/Guidance/Manuals/downloads/ncd103c1_Part4.pdf )
220.6.17 – Positron Emission Tomography (FDG PET) for Oncologic Conditions General
FDG (2-[F18] fluoro-2-deoxy-D-glucose) PET is a minimally invasive diagnostic imaging procedure used to evaluate glucose metabolism in normal tissue, as well as in diseased tissues, in conditions such as cancer, ischemic heart disease, and some neurologic disorders. FDG is an injected radionuclide (or radiopharmaceutical that emits sub-atomic particles, known as positrons, as it decays. FDG PET uses a positron camera (tomograph) to measure the decay of FDG. The rate of FDG decay provides biochemical information on glucose metabolism in the tissue being studied. As malignancies can cause abnormalities of metabolism and blood flow, FDG PET evaluation may indicate the probable presence or absence of a majority based upon observed differences in biologic activity compared to adjacent tissues. The Centers for Medicare and Medicaid Services (CMS) was asked by the National Oncologic PET Registry (NOPR) to reconsider section 220.6 of the National Coverage Determination (NCD) Manual to end the prospective data collection requirements under Coverage with Evidence Development (CED) across all oncologic indications of FDG PET imaging. The CMS received public input indicating that the current framework of prospective data collection under CED be ended for all oncologic uses of FDG PET imaging
1. Framework Effective for claims with dates of service on and after June 11, 2013, CMS is adopting a coverage framework that ends the prospective data collection requirements by NOPR under CED for all oncologic uses of FDG PET imaging. CMS is making this change for all NCDs that address coverage of FDG PET for oncologic uses addressed in this decision. This decision does not change coverage for any use of PET imaging using radiopharmaceuticals NaF-18 (fluorine-18 labeled sodium fluoride), ammonia N-13, or rubidium-82 (Rb-82).
2. Initial Anti-Tumor Treatment Strategy CMS continues to believe that the evidence is adequate to determine that the results of FDG PET imaging are useful in determining the appropriate initial anti-tumor treatment strategy for beneficiaries with suspected cancer and improve health outcomes and thus are reasonable and necessary under §1862(a)(1)(A) of the Social Security Act (the “Act”).
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Therefore, CMS continues to nationally cover one FDG PET study for beneficiaries who have cancers that are biopsy proven or strongly suspected based on other diagnostic testing when the beneficiary’s treating physician determines that the FDG PET study is needed to determine the location and/or extent of the tumor for the following therapeutic purposes related to the initial anti-tumor treatment strategy:
• To determine whether or not the beneficiary is an appropriate candidate for an invasive diagnostic or therapeutic procedure; or
• To determine the optimal anatomic location for an invasive procedure; or • To determine the anatomic extent of tumor when the recommended anti-
tumor treatment reasonably depends on the extent of the tumor.
See the table at the end of this section for a synopsis of all nationally covered and non- covered oncologic uses of FDG PET imaging.
Initial Anti-Tumor Treatment Strategy Nationally Covered Indication Effective: June 11, 2013
• CMS continues to nationally cover FDG PET imaging for the initial anti-tumor treatment strategy for male and female breast cancer only when used in staging distant metastasis.
• CMS continues to nationally cover FDG PET to determine initial anti-tumor treatment strategy for melanoma other than for the evaluation of regional lymph nodes.
• CMS continues to nationally cover FDG PET imaging biopsy proven cervical cancer for the detection of pre-treatment metastasis (i.e., staging) in newly diagnosed cervical cancers following conventional imaging that is negative for extra-pelvic metastasis.
Initial Anti-Tumor Treatment Strategy Nationally Non-Covered Indication Effective: June 11, 2013
• CMS continues to nationally non-cover initial anti-tumor treatment strategy in Medicare beneficiaries who have adenocarcinoma of the prostate. CMS continues to nationally non-cover FDG PET imaging for diagnosis of breast cancer and initial staging of axillary nodes.
• CMS continues to nationally non-cover FDG PET imaging for initial anti-tumor treatment strategy for the evaluation of regional lymph nodes in melanoma.
• CMS continues to nationally non-cover FDG PET imaging for the diagnosis (no biopsy result) of cervical cancer related to initial anti-tumor treatment strategy.
3. Subsequent Anti-Tumor Treatment Strategy
Subsequent Anti-Tumor Treatment Strategy Nationally Covered Indication, Effective: June 11, 2013
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Three FDG PET scans are nationally covered when used to guide subsequent management of anti-tumor treatment strategy after completion of initial anti-tumor therapy. Coverage of more than three FDG PET scans to guide subsequent management of anti-tumor treatment strategy after completion of initial anti-tumor therapy shall be determined by the local Medicare Administrative Contractors.
4. Synopsis of Coverage of FDG PET for Oncologic Conditions, Effective: June 11, 2013
Effective for claims with dates of service on and after June 11, 2013, the chart below summarizes national FDG PET coverage for oncologic conditions;
FDG PET for Solid Tumors and Myeloma
Tumor Type
Initial Treatment Strategy
(formerly “diagnosis” & “staging”)
Subsequent Treatment Strategy (formerly “restaging” & “monitoring response to)
treatment”)
Colorectal Cover Cover Esophagus Cover Cover Head and Neck (not thyroid or CNS)
Cover Cover
Lymphoma Cover Cover Non-small cell lung Cover Cover Ovary Cover Cover Brain Cover Cover Cervix Cover with exceptions* Cover Small cell lung Cover Cover Soft tissue sarcoma Cover Cover Pancreas Cover Cover Testes Cover Cover Prostate Non-cover Cover Thyroid Cover Cover Breast (male and female) Cover with exceptions* Cover Melanoma Cover with exceptions* Cover All other solid tumors Cover Cover Myeloma Cover Cover All other cancers not listed Cover Cover
*Cervix: Nationally non-covered for the initial diagnosis of cervical cancer related to initial anti-tumor treatment strategy. All other indications for initial anti-tumor treatment strategy for cervical cancer are nationally covered.
*Breast: Nationally non-covered for initial diagnosis and/or staging of axillary lymph nodes, diagnosis and/or staging of axillary lymph nodes, and initial staging of metastatic disease. All other indications for initial anti-tumor treatment strategy for breast cancer are nationally covered.
*Invasive Breast Cancer:
• Prior to surgical lymph node sampling: NOT indicated (unless planning neoadjuvant therapy)
• Metastatic disease or suspicious lesions seen on CT and/or bone scan: Indicated • After completion of surgical lymph node sampling in place of CT scans: Indicated
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Melanoma: Nationally non-covered for initial staging of regional lymph nodes. All other indications for initial anti-tumor treatment strategy for melanoma are nationally covered.
• Prior to surgical lymph node sampling: NOT indicated • Metastatic disease or suspicious lesions seen on CT and/or bone scan: Indicated • After completion of surgical lymph node sampling in place of CT scans: Indicated
ONC-32.2 Oncologic Non-FDG PET • PET for Bone Metastases:
o PET using F-18 sodium fluoride (NaF-18) is advocated as being effective at identifying bone metastases.
o Medicare does not cover these studies under the NCD, but may be reimbursed under CED.
o In February 2011, NaF-18 PET studies were added to the National Oncologic Positron Emission Tomography Registry (NOPR) and CMS has accepted this registry as a qualifying clinical study for CED. • Providers should report these PET studies using the standard CPT® code set
(7811-78816). • It is not appropriate to bill NaF-18 PET using nuclear medicine bone scan codes
(e.g., CPT®78320) as these codes do not accurately describe the nature of the imaging service.
• The rendering facility should report the NaF-18 radiopharmaceutical with HCPCS code A9580.
• CMS issued a decision memo December 15, 2015, extending CED eligibility for NaF-18 PET for an additional 24 months.
• Coverage with Evidence Development (CED): o CED is a program designed to make PET available to Medicare beneficiaries while
at the same time gathering data regarding PET’s effectiveness. o Under CED, Medicare will reimburse the claim if the beneficiary is enrolled in,
and the PET provider is participating in, a qualifying prospective clinical trial or registry.
o Full details regarding qualifying clinical trials, including the list of required scientific integrity standards and relevance to the Medicare population are available in the Medicare NCD Manual, Section 220.6.17.
o Qualifying research trials must be registered on the www.ClinicalTrials.gov website by the principal sponsor/investigator, prior to the enrollment of the first study subject.
• National Oncologic PET Registry (NOPR): o Providers can meet Medicare’s requirements for CED by submitting PET data to
the National Oncologic PET Registry (NOPR).
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o A participating hospital or imaging center must submit information to the NOPR for all Medicare PET that falls under CED. This information includes pre- and post-study forms completed by the referring provider, as well as the final radiology report.
o Providers cannot bill Medicare for the services until the NOPR notifies the facility that all required information has been received.
o Imaging facilities cannot submit data to the NOPR for studies performed for covered indications.
o For more information about the NOPR, see the registry website: www.cancerpetregistry.org
• PET Oncologic Studies Using Other Radiopharmaceuticals: o Medicare’s National Coverage Determination for PET (NCD 220.6) sets specific
requirements for oncologic scans performed with FDG and NaF-18 as well as cardiac imaging radiopharmaceuticals Ammonia N-13 and Rb-82.
o Local Medicare contractors have the authority to make coverage decisions about oncologic studies performed with other agents.
ONC-32.3 Brain PET • CPT®78608 is used to report FDG PET metabolic brain studies for dementia, seizure
disorders, and dedicated PET tumor imaging studies of the brain. • CPT®78609 is used to report PET brain perfusion studies that are not performed with
FDG. These scans are nationally noncovered by Medicare.
• Florbetapir Brain Studies: o Medicare will reimburse for brain PET, performed with the radiopharmaceutical
florbetapir F-18, only through CED. o Only one study will be paid per beneficiary and the radiopharmaceutical must be
FDA-approved. As of October 25, 2013, only the agents Amyvid™ and Vizamyl®
met this qualification.
• FDG PET for Dementia and Neurodegenerative Diseases o Medicare covers FDG PET for individuals with a recent diagnosis of dementia and
documented cognitive decline of at least six months who meet diagnostic criteria for both Alzheimer’s disease (AD) and front-temporal dementia (FTD).
o The individual must have been evaluated for specific alternate neurodegenerative diseases or other causative factors, but the etiology of the symptoms remains unclear.
o Other conditions must also be met. For the complete coverage policy, see the Medicare National Coverage Determinations (NCD) Manual, Section 220.6.13.*
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o Medicare also covers FDG PET for individuals with mild cognitive impairment or early dementia when the study is performed in the context of a CMS-approved clinical trial. Requirements are detailed in Section 220.6.13 of the NCD Manual*.
o All other uses of FDG PET for patients with a presumptive diagnosis of dementia-causing neurodegenerative disease for which CMS has not specifically indicated coverage continue to be noncovered. Examples of noncovered indications described in the NCD include: possible or probable AD, clinically typical FTD, dementia of Lewy bodies, and Creutzfield-Jacob disease.
*http://www.cms.gov/Regulations-and-Guidance/Guidance/Manuals/downloads/ncd103c1_Part4.pdf • FDG PET for Refractory Seizures
o Medicare covers FDG PET for pre-surgical evaluation for the purpose of localization of a focus of refractory seizure activity.
o The complete coverage policy is found in the Medicare National Coverage Determinations (NCD) Manual, Section 220.6.9: http://www.cms.gov/Regulations-and-Guidance/Guidance/Manuals/downloads/ncd103c1_Part4.pdf
ONC-32.4 Cardiac PET • PET Myocardial Perfusion
o Medicare covers PET for myocardial perfusion with rubidium (Rb-82) or ammonia (N-13) when one of the following conditions is met: • PET is performed in place of, but not in addition to, a SPECT, or • anAn individual has had an inconclusive SPECT. In these cases, the PET must
be considered necessary in order to determine what medical or surgical intervention is required to treat the individual
o PET myocardial perfusion is reported with either CPT®78491 or CPT®78492. o The complete coverage policy is found in the Medicare National Coverage
Determinations (NCD) Manual, Section 220.6.1: http://www.cms.gov/Regulations-and-Guidance/Guidance/Manuals/downloads/ncd103c1_Part4.pdf
• PET Myocardial Viability
o Medicare covers FDG PET for myocardial viability as a primary or initial diagnostic study prior to revascularization surgery, or following an inconclusive SPECT scan. • The study must be performed on a full or partial ring PET scanner. • When PET is performed following an inconclusive SPECT, Medicare will not
cover a follow-up SPECT exam if the results of the PET are inconclusive. • PET myocardial viability is reported with CPT®78459. • The complete coverage policy is found in the Medicare National Coverage
Determinations (NCD) Manual, Section 220.6.8: http://www.cms.gov/Regulations-and-Guidance/Guidance/Manuals/downloads/ncd103c1_Part4.pdf
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ONC-32.5 PET for Infection and Inflammation • Medicare does not cover FDG PET for the following indications:
o chronic osteomyelitis o infection of hip arthroplasty o fever of unknown origin o The complete coverage policy is found in the Medicare National Coverage
Determinations (NCD) Manual, Section 220.6.16: http://www.cms.gov/Regulations-and-Guidance/Guidance/Manuals/downloads/ncd103c1_Part4.pdf
ONC-32.6 Breast Cancer Criteria PET Medicare Breast Cancer Criteria: Nationally non-covered for initial diagnosis and/or staging of axillary lymph nodes. Nationally covered for initial staging of metastatic disease. All other indications for initial anti-tumor treatment strategy for breast cancer are nationally covered. Medicare PET criteria for Invasive Breast Cancer:
• Prior to surgical lymph node sampling: NOT indicated (unless planning neoadjuvant therapy)
• Metastatic disease or suspicious lesions seen on CT and/or bone scan: Indicated
• After completion of surgical lymph node sampling in place of CT: Indicated ONC-32.7 Melanoma PET Medicare Melanoma Criteria: Nationally non-covered for initial staging of regional lymph nodes. All other indications for initial anti-tumor treatment strategy for melanoma are nationally covered.
Medicare PET criteria for Melanoma: • Prior to surgical lymph node sampling: NOT indicated • Metastatic disease or suspicious lesions seen on CT and/or bone scan:
Indicated • After completion of surgical lymph node sampling in place of CT: Indicated
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